pwm.gev: Generalized Extreme Value Plotting-Position...
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pwm.gev R Documentation
Generalized Extreme Value Plotting-Position Probability-Weighted Moments
Description
Generalized Extreme Value plotting-position probability-weighted moments (PWMs) are computed from a sample. The first five \beta_r's are computed by default. The plotting-position formula for the Generalized Extreme Value distribution is
pp_i = \frac{i-0.35}{n} \mbox{,}
where pp_i is the nonexceedance probability F of the ith ascending values of the sample of size n. The PWMs are computed by
\beta_r = n^{-1}\sum_{i=1}^{n}pp_i^r \times x_{j:n} \mbox{,}
where x_{j:n} is the jth order statistic
x_{1:n} \le x_{2:n} \le x_{j:n} \dots \le x_{n:n} of random variable X, and r is 0, 1, 2, \dots. Finally, pwm.gev dispatches to pwm.pp(data,A=-0.35,B=0) and does not have its own logic.
Usage
pwm.gev(x, nmom=5, sort=TRUE)
Arguments
x
A vector of data values.
nmom
Number of PWMs to return.
sort
Do the data need sorting? The computations require sorted data. This option is provided to optimize processing speed if presorted data already exists.
Value
An R list is returned.
betas
The PWMs. Note that convention is the have a \beta_0, but this is placed in the first index i=1 of the betas vector.
source
Source of the PWMs: “pwm.gev”.
Author(s)
W.H. Asquith
References
Greenwood, J.A., Landwehr, J.M., Matalas, N.C., and Wallis, J.R., 1979, Probability weighted moments—Definition and relation to parameters of several distributions expressable in inverse form: Water Resources Research, v. 15, pp. 1,049–1,054.
Hosking, J.R.M., 1990, L-moments—Analysis and estimation of
distributions using linear combinations of order statistics: Journal
of the Royal Statistical Society, Series B, v. 52, pp. 105–124.
See Also
pwm.ub, pwm.pp, pwm2lmom
Examples
pwm <- pwm.gev(rnorm(20))
lmomco documentation built on May 29, 2024, 10:06 a.m.
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| pwm.gev | R Documentation |
Generalized Extreme Value Plotting-Position Probability-Weighted Moments
Description
Generalized Extreme Value plotting-position probability-weighted moments (PWMs) are computed from a sample. The first five \beta_r's are computed by default. The plotting-position formula for the Generalized Extreme Value distribution is
pp_i = \frac{i-0.35}{n} \mbox{,}
where pp_i is the nonexceedance probability F of the ith ascending values of the sample of size n. The PWMs are computed by
\beta_r = n^{-1}\sum_{i=1}^{n}pp_i^r \times x_{j:n} \mbox{,}
where x_{j:n} is the jth order statistic
x_{1:n} \le x_{2:n} \le x_{j:n} \dots \le x_{n:n} of random variable X, and r is 0, 1, 2, \dots. Finally, pwm.gev dispatches to pwm.pp(data,A=-0.35,B=0) and does not have its own logic.
Usage
pwm.gev(x, nmom=5, sort=TRUE)
Arguments
x |
A vector of data values. |
nmom |
Number of PWMs to return. |
sort |
Do the data need sorting? The computations require sorted data. This option is provided to optimize processing speed if presorted data already exists. |
Value
An R list is returned.
betas |
The PWMs. Note that convention is the have a |
source |
Source of the PWMs: “pwm.gev”. |
Author(s)
W.H. Asquith
References
Greenwood, J.A., Landwehr, J.M., Matalas, N.C., and Wallis, J.R., 1979, Probability weighted moments—Definition and relation to parameters of several distributions expressable in inverse form: Water Resources Research, v. 15, pp. 1,049–1,054.
Hosking, J.R.M., 1990, L-moments—Analysis and estimation of distributions using linear combinations of order statistics: Journal of the Royal Statistical Society, Series B, v. 52, pp. 105–124.
See Also
pwm.ub, pwm.pp, pwm2lmom
Examples
pwm <- pwm.gev(rnorm(20))
R Package Documentation
Browse R Packages
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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