Poisson distribution

Poisson distribution
/pwah sohn"/; Fr. /pwann sawonn"/, Statistics.
a limiting form of the binomial probability distribution for small values of the probability of success and for large numbers of trials: particularly useful in industrial quality-control work and in radiation and bacteriological problems.
[1920-25; named after S. D. Poisson (1781-1840), French mathematician and physicist]

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      in statistics, a distribution function useful for characterizing events with very low probabilities of occurrence within some definite time or space.

      The French mathematician Siméon-Denis Poisson (Poisson, Siméon-Denis) developed his function in 1830 to describe the number of times a gambler would win a rarely won game of chance in a large number of tries. Letting p represent the probability of a win on any given try, the mean, or average, number of wins (λ) in n tries will be given by λ = np. Using the Swiss mathematician Jakob Bernoulli (Bernoulli, Jakob)'s binomial distribution, Poisson showed that the probability of obtaining k wins is approximately λk/eλk!, where e is the exponential function and k! = (k − 1)(k − 2)⋯2∙1. Noteworthy is the fact that λ equals both the mean and variance (a measure of the dispersal of data away from the mean) for the Poisson distribution.

 The Poisson distribution is now recognized as a vitally important distribution in its own right. For example, in 1946 the British statistician R.D. Clarke published “An Application of the Poisson Distribution,” in which he disclosed his analysis of the distribution of hits of flying bombs (V-1 (V-1 missile) and V-2 (V-2 missile) missiles) in London during World War II. Some areas were hit more often than others (see table—>). The British military wished to know if the Germans were targeting these districts (the hits indicating great technical precision) or if the distribution was due to chance. If the missiles were in fact only randomly targeted (within a more general area), the British could simply disperse important installations to decrease the likelihood of their being hit.

      Clarke began by dividing an area into thousands of tiny, equally sized plots. Within each of these, it was unlikely that there would be even one hit, let alone more. Furthermore, under the assumption that the missiles fell randomly, the chance of a hit in any one plot would be a constant across all the plots. Therefore, the total number of hits would be much like the number of wins in a large number of repetitions of a game of chance with a very small probability of winning. This sort of reasoning led Clarke to a formal derivation of the Poisson distribution as a model. The observed hit frequencies were very close to the predicted Poisson frequencies. Hence, Clarke reported that the observed variations appeared to have been generated solely by chance.

Richard Routledge
 

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Universalium. 2010.

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