quaexp: Quantile Function of the Exponential Distribution

Description

This function computes the quantiles of the Exponential distribution given parameters ($\xi$ and $\alpha$) computed by parexp. The quantile function is $$x(F) = \xi - \alpha \log(1-F) \mbox{,}$$ where $x(F)$ is the quantile for nonexceedance probability $F$, $\xi$ is a location parameter, and $\alpha$ is a scale parameter.

Usage

quaexp(f, para, paracheck=TRUE)

Value

Quantile value for nonexceedance probability $F$.

Arguments

f: Nonexceedance probability ($0 \le F \le 1$).
para: The parameters from parexp or vec2par.
paracheck: A logical controlling whether the parameters are checked for validity. Overriding of this check might be extremely important and needed for use of the quantile function in the context of TL-moments with nonzero trimming.

Author

W.H. Asquith

References

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.

Hosking, J.R.M., 1996, FORTRAN routines for use with the method of L-moments: Version 3, IBM Research Report RC20525, T.J. Watson Research Center, Yorktown Heights, New York.

Hosking, J.R.M., and Wallis, J.R., 1997, Regional frequency analysis---An approach based on L-moments: Cambridge University Press.

Examples

Run this code

  lmr <- lmoms(c(123,34,4,654,37,78))
  quaexp(0.5,parexp(lmr))

Run the code above in your browser using DataLab