dbeta4: The 4-Parameter Beta Distribution in Regression...
In betareg: Beta Regression
beta4 R Documentation
The 4-Parameter Beta Distribution in Regression Parameterization
Description
Density, distribution function, quantile function, and random generation
for the 4-parameter beta distribution in regression parameterization.
Usage
dbeta4(x, mu, phi, theta1 = 0, theta2 = 1 - theta1, log = FALSE)
pbeta4(q, mu, phi, theta1 = 0, theta2 = 1 - theta1, lower.tail = TRUE, log.p = FALSE)
qbeta4(p, mu, phi, theta1 = 0, theta2 = 1 - theta1, lower.tail = TRUE, log.p = FALSE)
rbeta4(n, mu, phi, theta1 = 0, theta2 = 1 - theta1)
Arguments
x, q
numeric. Vector of quantiles.
p
numeric. Vector of probabilities.
n
numeric. Number of observations. If length(n) > 1, the length is
taken to be the number required.
mu
numeric. The mean of the beta distribution that is extended to
support [theta1, theta2].
phi
numeric. The precision parameter of the beta distribution that is
extended to support [theta1, theta2].
theta1, theta2
numeric. The minimum and maximum, respectively,
of the 4-parameter beta distribution. By default a symmetric support is
chosen by theta2 = 1 - theta1 which reduces to the classic
beta distribution because of the default theta1 = 0.
log, log.p
logical. If TRUE, probabilities p are given as log(p).
lower.tail
logical. If TRUE (default), probabilities are P[X <= x]
otherwise, P[X > x].
Details
The distribution is obtained by a linear transformation of a beta-distributed
random variable with intercept theta1 and slope theta2 - theta1.
Value
dbeta4 gives the density, pbeta4 gives the distribution
function, qbeta4 gives the quantile function, and rbeta4
generates random deviates.
See Also
dbetar, Beta4
betareg documentation built on Sept. 13, 2024, 1:07 a.m.
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| beta4 | R Documentation |
The 4-Parameter Beta Distribution in Regression Parameterization
Description
Density, distribution function, quantile function, and random generation for the 4-parameter beta distribution in regression parameterization.
Usage
dbeta4(x, mu, phi, theta1 = 0, theta2 = 1 - theta1, log = FALSE)
pbeta4(q, mu, phi, theta1 = 0, theta2 = 1 - theta1, lower.tail = TRUE, log.p = FALSE)
qbeta4(p, mu, phi, theta1 = 0, theta2 = 1 - theta1, lower.tail = TRUE, log.p = FALSE)
rbeta4(n, mu, phi, theta1 = 0, theta2 = 1 - theta1)
Arguments
x, q |
numeric. Vector of quantiles. |
p |
numeric. Vector of probabilities. |
n |
numeric. Number of observations. If |
mu |
numeric. The mean of the beta distribution that is extended to support [theta1, theta2]. |
phi |
numeric. The precision parameter of the beta distribution that is extended to support [theta1, theta2]. |
theta1, theta2 |
numeric. The minimum and maximum, respectively,
of the 4-parameter beta distribution. By default a symmetric support is
chosen by |
log, log.p |
logical. If TRUE, probabilities p are given as log(p). |
lower.tail |
logical. If TRUE (default), probabilities are P[X <= x] otherwise, P[X > x]. |
Details
The distribution is obtained by a linear transformation of a beta-distributed
random variable with intercept theta1 and slope theta2 - theta1.
Value
dbeta4 gives the density, pbeta4 gives the distribution
function, qbeta4 gives the quantile function, and rbeta4
generates random deviates.
See Also
dbetar, Beta4
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