InverseWeibull: The Inverse Weibull Distribution
In actuar: Actuarial Functions and Heavy Tailed Distributions
InverseWeibull R Documentation
The Inverse Weibull Distribution
Description
Density function, distribution function, quantile function, random generation,
raw moments and limited moments for the Inverse Weibull distribution
with parameters shape and scale.
Usage
dinvweibull(x, shape, rate = 1, scale = 1/rate, log = FALSE)
pinvweibull(q, shape, rate = 1, scale = 1/rate,
lower.tail = TRUE, log.p = FALSE)
qinvweibull(p, shape, rate = 1, scale = 1/rate,
lower.tail = TRUE, log.p = FALSE)
rinvweibull(n, shape, rate = 1, scale = 1/rate)
minvweibull(order, shape, rate = 1, scale = 1/rate)
levinvweibull(limit, shape, rate = 1, scale = 1/rate,
order = 1)
Arguments
x, q
vector of quantiles.
p
vector of probabilities.
n
number of observations. If length(n) > 1, the length is
taken to be the number required.
shape, scale
parameters. Must be strictly positive.
rate
an alternative way to specify the scale.
log, log.p
logical; if TRUE, probabilities/densities
p are returned as \log(p).
lower.tail
logical; if TRUE (default), probabilities are
P[X \le x], otherwise, P[X > x].
order
order of the moment.
limit
limit of the loss variable.
Details
The inverse Weibull distribution with parameters shape =
\tau and scale = \theta has density:
f(x) = \frac{\tau (\theta/x)^\tau e^{-(\theta/x)^\tau}}{x}
for x > 0, \tau > 0 and \theta > 0.
The special case shape == 1 is an
Inverse Exponential distribution.
The kth raw moment of the random variable X is
E[X^k], k < \tau, and the kth
limited moment at some limit d is E[\min(X, d)^k], all k.
Value
dinvweibull gives the density,
pinvweibull gives the distribution function,
qinvweibull gives the quantile function,
rinvweibull generates random deviates,
minvweibull gives the kth raw moment, and
levinvweibull gives the kth moment of the limited loss
variable.
Invalid arguments will result in return value NaN, with a warning.
Note
levinvweibull computes the limited expected value using
gammainc from package expint.
Distribution also knonw as the log-Gompertz. See also Kleiber and
Kotz (2003) for alternative names and parametrizations.
The "distributions" package vignette provides the
interrelations between the continuous size distributions in
actuar and the complete formulas underlying the above functions.
Author(s)
Vincent Goulet vincent.goulet@act.ulaval.ca and
Mathieu Pigeon
References
Kleiber, C. and Kotz, S. (2003), Statistical Size Distributions
in Economics and Actuarial Sciences, Wiley.
Klugman, S. A., Panjer, H. H. and Willmot, G. E. (2012),
Loss Models, From Data to Decisions, Fourth Edition, Wiley.
Examples
exp(dinvweibull(2, 3, 4, log = TRUE))
p <- (1:10)/10
pinvweibull(qinvweibull(p, 2, 3), 2, 3)
mlgompertz(-1, 3, 3)
levinvweibull(10, 2, 3, order = 1)
actuar documentation built on Nov. 8, 2023, 9:06 a.m.
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| InverseWeibull | R Documentation |
The Inverse Weibull Distribution
Description
Density function, distribution function, quantile function, random generation,
raw moments and limited moments for the Inverse Weibull distribution
with parameters shape and scale.
Usage
dinvweibull(x, shape, rate = 1, scale = 1/rate, log = FALSE)
pinvweibull(q, shape, rate = 1, scale = 1/rate,
lower.tail = TRUE, log.p = FALSE)
qinvweibull(p, shape, rate = 1, scale = 1/rate,
lower.tail = TRUE, log.p = FALSE)
rinvweibull(n, shape, rate = 1, scale = 1/rate)
minvweibull(order, shape, rate = 1, scale = 1/rate)
levinvweibull(limit, shape, rate = 1, scale = 1/rate,
order = 1)
Arguments
x, q |
vector of quantiles. |
p |
vector of probabilities. |
n |
number of observations. If |
shape, scale |
parameters. Must be strictly positive. |
rate |
an alternative way to specify the scale. |
log, log.p |
logical; if |
lower.tail |
logical; if |
order |
order of the moment. |
limit |
limit of the loss variable. |
Details
The inverse Weibull distribution with parameters shape =
\tau and scale = \theta has density:
f(x) = \frac{\tau (\theta/x)^\tau e^{-(\theta/x)^\tau}}{x}
for x > 0, \tau > 0 and \theta > 0.
The special case shape == 1 is an
Inverse Exponential distribution.
The kth raw moment of the random variable X is
E[X^k], k < \tau, and the kth
limited moment at some limit d is E[\min(X, d)^k], all k.
Value
dinvweibull gives the density,
pinvweibull gives the distribution function,
qinvweibull gives the quantile function,
rinvweibull generates random deviates,
minvweibull gives the kth raw moment, and
levinvweibull gives the kth moment of the limited loss
variable.
Invalid arguments will result in return value NaN, with a warning.
Note
levinvweibull computes the limited expected value using
gammainc from package expint.
Distribution also knonw as the log-Gompertz. See also Kleiber and Kotz (2003) for alternative names and parametrizations.
The "distributions" package vignette provides the
interrelations between the continuous size distributions in
actuar and the complete formulas underlying the above functions.
Author(s)
Vincent Goulet vincent.goulet@act.ulaval.ca and Mathieu Pigeon
References
Kleiber, C. and Kotz, S. (2003), Statistical Size Distributions in Economics and Actuarial Sciences, Wiley.
Klugman, S. A., Panjer, H. H. and Willmot, G. E. (2012), Loss Models, From Data to Decisions, Fourth Edition, Wiley.
Examples
exp(dinvweibull(2, 3, 4, log = TRUE))
p <- (1:10)/10
pinvweibull(qinvweibull(p, 2, 3), 2, 3)
mlgompertz(-1, 3, 3)
levinvweibull(10, 2, 3, order = 1)
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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