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Fisher-Tippett distribution

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**Fisher-Tippett**
Probability density function None uploaded yet.
Cumulative distribution function None uploaded yet.
Parameters	$\mu\!$ location (real) $\beta>0\!$ scale (real)
Support	$x \in (-\infty; +\infty)\!$
pdf	$\frac{\exp(-z)\,z}{\beta}\!$ where $z = \exp\left[-\frac{x-\mu}{\beta}\right]\!$
cdf	$\exp(-\exp[-(x-\mu)/\beta])\!$
Mean	$\mu + \beta\,\gamma\!$
Median	$\mu - \beta\,\ln(\ln(2))\!$
Mode	$\mu\!$
Variance	$\frac{\pi^2}{6}\,\beta^2\!$
Skewness	$\frac{12\sqrt{6}\,\zeta(3)}{\pi^3} \approx 1.14\!$
Kurtosis	$2.4$
Entropy	$\ln(\beta)+\gamma+1\!$ for $\beta > \exp(-(\gamma+1))\!$
mgf	$\Gamma(1-\beta\,t)\, \exp(\mu\,t)\!$
Char. func.	$\Gamma(1-i\,\beta\,t)\, \exp(i\,\mu\,t)\!$

In probability theory and statistics the Gumbel distribution is used to find the minimum (or the maximum) of a number of samples of various distributions. For example we would use it to find the maximum level of a river in a particular year if we had the list of maximum values for the past ten years. It is therefore useful in predicting the chance that an extreme earthquake, flood or other natural disaster will occur.

The distribution of the samples could be of the normal or exponential type. The Gumbel distribution, and similar distributions, are used in extreme value theory.

In particular, the Gumbel distribution is a special case of the Fisher-Tippett distribution, also known as the log-Weibull distribution, whose cumulative distribution function is

$p = e^{-e^{(\mu-x)/\beta}}.\,$