Summary
Extreme risks are risks of very bad outcomes or "high consequence", but of low probability. They include the risks of terrorist attack, biosecurity risks such as the invasion of pests, and extreme natural disasters such as major earthquakes.
Introduction edit
The estimation of the probability of extreme events is difficult because of the lack of data: they are events that have not yet happened or have happened only very rarely, so relevant data are scarce. Thus standard statistical methods are generally inapplicable.
Extreme value theory edit
If there is some relevant data, the probability of events at or beyond the range of the data may be estimated by the statistical methods of extreme value theory, developed for such purposes as predicting 100-year floods from a limited range of data of past floods. In such cases a mathematical function may be fitted to the data and extrapolated beyond the range of the data to estimate the probability of extreme events. The results need to be treated with caution because of the possibility that the largest values in the past are unrepresentative, and the possibility that the behavior of the system has changed.
Black swan theory edit
In cases where the event of interest is very different from existing experience, there may be no relevant guide in the past data. Nassim Nicholas Taleb argues in his black swan theory that the frequency and impact of totally unexpected events is generally underestimated. With hindsight, they can be explained, but there is no prospect of predicting them.
Bank operational risk edit
Banks need to evaluate the risk of adverse events other than credit risks and market risks. These risks, called operational risks, include the major events most likely to cause bank failure, such as massive internal fraud. The international compliance regime for banks, Basel II, requires that such risks be quantified using a mixture of statistical theory, such as extreme value theory, and scenario analysis conducted by internal committees of experts. A bank regulator (such as the Federal Reserve in the United States) oversees the result. Negotiations between the parties result in a system that combines quantitative methods with informed and scrutinized expert opinion. This gives the potential to avoid as far as possible the problems caused by the paucity of data and the bias of pure expert opinion.[1]
Similar methods combining quantitative methods with moderated expert opinion have been used[by whom?] to evaluate biosecurity risks such as risks of invasive species that have potentially massive impacts on a country's economy or ecology.[2]
See also edit
References edit
- ^ Franklin, James (Oct 2008). "Operational risk under Basel II: A model for extreme risk evaluation" (PDF). Banking and Financial Services Policy Report. 27 (10): 10–16. Retrieved 29 June 2021.
- ^ Franklin, J.; Sisson, J.A.; Burgman, M.A; Martin, J.K. (2008). "Evaluating extreme risks in invasion ecology: learning from banking compliance" (PDF). Diversity and Distributions. 14 (4): 581–591. doi:10.1111/j.1472-4642.2008.00478.x. S2CID 8875197. Retrieved 29 June 2021.
Further reading edit
- Taleb, N. N. (2007). The Black Swan: The Impact of the Highly Improbable. ISBN 978-1-4000-6351-2.
- Embrechts, P. (2000). Extremes and Integrated Risk Management. Risk Books. ISBN 1-899332-74-X.
- Nott, J. (2006). Extreme Events: A Physical Reconstruction and Risk Assessment. Cambridge University Press. ISBN 978-0-521-82412-5.
- Bier, Vicki M. (2016). The Gower Handbook of Extreme Risk. Routledge. ISBN 9781472439901. OCLC 938994733.
- Hodgson, T; Yin, L (2013). Extreme Risks - 2013. Towers Watson.