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Difference between revisions of "Binomial distribution"

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''Bernoulli distribution''
 
''Bernoulli distribution''
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The probability distribution of a random variable <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/b/b016/b016420/b0164201.png" /> which assumes integral values <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/b/b016/b016420/b0164202.png" /> with the probabilities
 
The probability distribution of a random variable <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/b/b016/b016420/b0164201.png" /> which assumes integral values <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/b/b016/b016420/b0164202.png" /> with the probabilities

Revision as of 12:18, 12 January 2012

Bernoulli distribution

[ 2010 Mathematics Subject Classification MSN: 60E99 | MSCwiki: 60E99  ]

The probability distribution of a random variable which assumes integral values with the probabilities

where is the binomial coefficient, and is a parameter of the binomial distribution, called the probability of a positive outcome, which can take values in the interval . The binomial distribution is one of the fundamental probability distributions connected with a sequence of independent trials. Let be a sequence of independent random variables, each one of which may assume only one of the values 1 and 0 with respective probabilities and (i.e. all are binomially distributed with ). The values of may be treated as the results of independent trials, with if the result of the -th trial is "positive" and if it is "negative" . If the total number of independent trials is fixed, such a scheme is known as Bernoulli trials, and the total number of positive results,

is then binomially distributed with parameter .

The mathematical expectation (the generating function of the binomial distribution) for any value of is the polynomial , the representation of which by Newton's binomial series has the form

(Hence the very name "binomial distribution" .) The moments (cf. Moment) of a binomial distribution are given by the formulas

The binomial distribution function is defined, for any real , , by the formula

where is the integer part of , and

is Euler's beta-function, and the integral on the right-hand side is known as the incomplete beta-function.

As , the binomial distribution function is expressed in terms of the standard normal distribution function by the asymptotic formula (the de Moivre–Laplace theorem):

where

uniformly for all real . There also exist other, higher order, normal approximations of the binomial distribution.

If the number of independent trials is large, while the probability is small, the individual probabilities can be approximately expressed in terms of the Poisson distribution:

If and (where and are constants), the asymptotic formula

where , is uniformly valid with respect to all in the interval .

The multinomial distribution is the multi-dimensional generalization of the binomial distribution.

References

[1] B.V. Gnedenko, "The theory of probability" , Chelsea, reprint (1962) (Translated from Russian)
[2] W. Feller, "An introduction to probability theory and its applications" , 1–2 , Wiley (1957–1971)
[3] Yu.V. [Yu.V. Prokhorov] Prohorov, Yu.A. Rozanov, "Probability theory, basic concepts. Limit theorems, random processes" , Springer (1969) (Translated from Russian)
[4] Yu.V. Prokhorov, "Asymptotic behaviour of the binomial distribution" Selected Translations in Math. Stat. and Probab. , 1 , Amer. Math. Soc. (1961) (Translated from Russian) Uspekhi Mat. Nauk , 8 : 3 (1953) pp. 135–142
[5] L.N. Bol'shev, N.V. Smirnov, "Tables of mathematical statistics" , Libr. math. tables , 46 , Nauka (1983) (In Russian) (Processed by L.S. Bark and E.S. Kedrova)
How to Cite This Entry:
Binomial distribution. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Binomial_distribution&oldid=20229
This article was adapted from an original article by L.N. Bol'shev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article