Extreme value theory


Extreme value theory

Extreme value theory is a branch of statistics dealing with the extreme deviations from the median of probability distributions. The general theory sets out to assess the type of probability distributions generated by processes. Extreme value theory is important for assessing risk for highly unusual events, such as 100-year floods.

Approaches

Two approaches exist today:

# Most common at this moment is the tail-fitting approach based on the second theorem in extreme value theory (Theorem II Pickands (1975), Balkema and de Haan (1974)).
# Basic theory approach as described in the book by Burry (reference 2).In general this conforms to the first theorem in extreme value theory (Theorem I Fisher and Tippett (1928), and Gnedenko (1943)).

The difference between the two theorems is due to the nature of the data generation. For theorem I the data are generated in full range, while in theorem II data is only generated when it surpasses a certain threshold (POT's models or Peak Over Threshold). The POT approach has been developed largely in the insurance business, where only losses (pay outs) above a certain threshold are accessible to the insurance company. Strangely this approach is often applied to theorem I cases which poses problems with the basic model assumptions.

Extreme value distributions are the limiting distributions for the minimum or the maximum of a very large collection of random observations from the same arbitrary distribution. Emil Julius Gumbel (1958) showed that for any well-behaved initial distribution (i.e., F(x) is continuous and has an inverse), only a few models are needed, depending on whether you are interested in the maximum or the minimum, and also if the observations are bounded above or below.

Applications

Applications of extreme value theory include predicting the probability distribution of:
* Extreme floods
* The amounts of large insurance losses
* Equity risks
* Day to day market risk
* The size of freak waves
* Mutational events during evolution
* It can be applied to some characterization of the distribution of the maxima of incomes, like in some surveys done in virtually all the National Offices of Statistics

History

The field of extreme value theory was pioneered by the German mathematician Emil Julius Gumbel who described the Gumbel distribution in the 1950s.

Use in financial applications

It has been argued [* [http://papers.ssrn.com/sol3/papers.cfm?abstract_id=963240 "When Statistics Fail: Extreme Events in Financial Institutions" by MAIKE SUNDMACHER and GUY FORD] ] that extreme value theory, by focusing on 'extreme' but unlikely events, neglects the importance of incentive structures and institutional culture as causal factors that generate large losses by financial institutions. Their criticism suggests that rather than looking at just exogenous determinants of financial crisis, analysts should also look at determinants such as remuneration structures and the psychology of risk-loving that often emerge within - and potentially controllable by - the institutions' themselves.

Notes

References

* Embrechts, P., C. Klüppelberg, and T. Mikosch (1997) "Modelling extremal events for insurance and finance". Berlin: Spring Verlag
* Gumbel, E.J. (1958). "Statistics of Extremes". Columbia University Press.
* Gumbel, E.J. (1935). "Les valeurs extrêmes des distributions statistiques", Ann. Inst. H. Poincaré, 5, 115-158.
* Burry K.V. (1975). "Statistical Methods in Applied Science". John Wiley & Sons.
* Pickands, J. (1975). "Statistical inference using extreme order statistics", Annals of Statistics, 3, 119-131.
* Balkema, A., and Laurens de Haan (1974). "Residual life time at great age", Annals of Probability, 2, 792-804.
* Fisher, R.A., and L. H. C. Tippett (1928). "Limiting forms of the frequency distribution of the largest and smallest member of a sample", Proc. Cambridge Phil. Soc., 24, 180-190.
* Gnedenko, B.V. (1943), "Sur la distribution limite du terme maximum d'une serie aleatoire", Annals of Mathematics, 44, 423-453.

ee also

* Hydrogeology
* Meteorology
* Extreme weather
* Rogue wave (oceanography)
* Important publications in extreme value theory
* Weibull distribution
* Extreme value distribution
* Generalized extreme value distribution
* Large deviation theory

External links

* [http://www.approximity.com/papers/evt_wp.pdf "Extreme Value Theory can save your neck" Easy non-mathematical introduction (pdf)]
* [http://www.cs.chalmers.se/Stat/Research/researchgroups/extreme.html Extreme value theory group at Chalmers University]
* [http://www.itl.nist.gov/div898/handbook/apr/section1/apr163.htm NIST Engineering Statistics Handbook "Extreme Value Theory"]
* [http://www.bankofcanada.ca/en/res/wp/2000/wp00-20.pdf "Steps in Applying Extreme Value Theory to Finance: A Review"]
* [http://www.numdam.org/item?id=AIHP_1935__5_2_115_0 "Les valeurs extrêmes des distributions statistiques" Full-text access to conferences held by E. J. Gumbel in 1933-34, in French (pdf)]


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