#include <boost/math/distributions/extreme.hpp>
template <class RealType = double, class Policy = policies::policy<> > class extreme_value_distribution; typedef extreme_value_distribution<> extreme_value; template <class RealType, class Policy> class extreme_value_distribution { public: typedef RealType value_type; extreme_value_distribution(RealType location = 0, RealType scale = 1); RealType scale()const; RealType location()const; }; There are various extreme value distributions : this implementation represents the maximum case, and is variously known as a Fisher-Tippett distribution, a log-Weibull distribution or a Gumbel distribution. Extreme value theory is important for assessing risk for highly unusual events, such as 100-year floods. More information can be found on the NIST, Wikipedia, Mathworld, and Extreme value theory websites. The relationship of the types of extreme value distributions, of which this is but one, is discussed by Extreme Value Distributions, Theory and Applications Samuel Kotz & Saralees Nadarajah. The distribution has a PDF given by: f(x) = (1/scale) e-(x-location)/scale e-e-(x-location)/scale Which in the standard case (scale = 1, location = 0) reduces to: f(x) = e-xe-e-x The following graph illustrates how the PDF varies with the location parameter:
And this graph illustrates how the PDF varies with the shape parameter:
Member Functionsextreme_value_distribution(RealType location = 0, RealType scale = 1); Constructs an Extreme Value distribution with the specified location and scale parameters.
Requires RealType location()const; Returns the location parameter of the distribution. RealType scale()const; Returns the scale parameter of the distribution. Non-member AccessorsAll the usual non-member accessor functions that are generic to all distributions are supported: Cumulative Distribution Function, Probability Density Function, Quantile, Hazard Function, Cumulative Hazard Function, mean, median, mode, variance, standard deviation, skewness, kurtosis, kurtosis_excess, range and support. The domain of the random parameter is [-∞, +∞]. Accuracy
The extreme value distribution is implemented in terms of the standard
library ImplementationIn the following table: a is the location parameter, b is the scale parameter, x is the random variate, p is the probability and q = 1-p.
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