gengammaUC: Generalized Gamma Distribution
In VGAM: Vector Generalized Linear and Additive Models
gengammaUC R Documentation
Generalized Gamma Distribution
Description
Density, distribution function, quantile function and random
generation for the generalized gamma distribution with
scale parameter scale,
and parameters d and k.
Usage
dgengamma.stacy(x, scale = 1, d, k, log = FALSE)
pgengamma.stacy(q, scale = 1, d, k,
lower.tail = TRUE, log.p = FALSE)
qgengamma.stacy(p, scale = 1, d, k,
lower.tail = TRUE, log.p = FALSE)
rgengamma.stacy(n, scale = 1, d, k)
Arguments
x, q
vector of quantiles.
p
vector of probabilities.
n
number of observations.
Same as in runif.
scale
the (positive) scale parameter b.
d, k
the (positive) parameters d and k.
Both can be thought of as shape parameters, where
d is of the Weibull-type and
k is of the gamma-type.
log
Logical.
If log = TRUE then the logarithm of the density is returned.
lower.tail, log.p
Same meaning as in pnorm
or qnorm.
Details
See gengamma.stacy, the VGAM family function
for estimating the generalized gamma distribution
by maximum likelihood estimation,
for formulae and other details.
Apart from n, all the above arguments may be vectors and
are recyled to the appropriate length if necessary.
Value
dgengamma.stacy gives the density,
pgengamma.stacy gives the distribution function,
qgengamma.stacy gives the quantile function, and
rgengamma.stacy generates random deviates.
Author(s)
T. W. Yee and Kai Huang
References
Stacy, E. W. and Mihram, G. A. (1965).
Parameter estimation for a generalized gamma distribution.
Technometrics, 7, 349–358.
See Also
gengamma.stacy.
Examples
## Not run: x <- seq(0, 14, by = 0.01); d <- 1.5; Scale <- 2; k <- 6
plot(x, dgengamma.stacy(x, Scale, d = d, k = k), type = "l",
col = "blue", ylim = 0:1,
main = "Blue is density, orange is the CDF",
sub = "Purple are 5,10,...,95 percentiles", las = 1, ylab = "")
abline(h = 0, col = "blue", lty = 2)
lines(qgengamma.stacy(seq(0.05, 0.95, by = 0.05), Scale, d = d, k = k),
dgengamma.stacy(qgengamma.stacy(seq(0.05, 0.95, by = 0.05),
Scale, d = d, k = k),
Scale, d = d, k = k), col = "purple", lty = 3, type = "h")
lines(x, pgengamma.stacy(x, Scale, d = d, k = k), col = "orange")
abline(h = 0, lty = 2)
## End(Not run)
VGAM documentation built on Sept. 18, 2024, 9:09 a.m.
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| gengammaUC | R Documentation |
Generalized Gamma Distribution
Description
Density, distribution function, quantile function and random
generation for the generalized gamma distribution with
scale parameter scale,
and parameters d and k.
Usage
dgengamma.stacy(x, scale = 1, d, k, log = FALSE)
pgengamma.stacy(q, scale = 1, d, k,
lower.tail = TRUE, log.p = FALSE)
qgengamma.stacy(p, scale = 1, d, k,
lower.tail = TRUE, log.p = FALSE)
rgengamma.stacy(n, scale = 1, d, k)
Arguments
x, q |
vector of quantiles. |
p |
vector of probabilities. |
n |
number of observations.
Same as in |
scale |
the (positive) scale parameter |
d, k |
the (positive) parameters |
log |
Logical.
If |
lower.tail, log.p |
Same meaning as in |
Details
See gengamma.stacy, the VGAM family function
for estimating the generalized gamma distribution
by maximum likelihood estimation,
for formulae and other details.
Apart from n, all the above arguments may be vectors and
are recyled to the appropriate length if necessary.
Value
dgengamma.stacy gives the density,
pgengamma.stacy gives the distribution function,
qgengamma.stacy gives the quantile function, and
rgengamma.stacy generates random deviates.
Author(s)
T. W. Yee and Kai Huang
References
Stacy, E. W. and Mihram, G. A. (1965). Parameter estimation for a generalized gamma distribution. Technometrics, 7, 349–358.
See Also
gengamma.stacy.
Examples
## Not run: x <- seq(0, 14, by = 0.01); d <- 1.5; Scale <- 2; k <- 6
plot(x, dgengamma.stacy(x, Scale, d = d, k = k), type = "l",
col = "blue", ylim = 0:1,
main = "Blue is density, orange is the CDF",
sub = "Purple are 5,10,...,95 percentiles", las = 1, ylab = "")
abline(h = 0, col = "blue", lty = 2)
lines(qgengamma.stacy(seq(0.05, 0.95, by = 0.05), Scale, d = d, k = k),
dgengamma.stacy(qgengamma.stacy(seq(0.05, 0.95, by = 0.05),
Scale, d = d, k = k),
Scale, d = d, k = k), col = "purple", lty = 3, type = "h")
lines(x, pgengamma.stacy(x, Scale, d = d, k = k), col = "orange")
abline(h = 0, lty = 2)
## End(Not run)
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