Difference between revisions of "Logistic distribution"
Ulf Rehmann (talk | contribs) m (tex encoded by computer) |
m (fix tex) |
||
Line 18: | Line 18: | ||
$$ | $$ | ||
\psi ( x) = | \psi ( x) = | ||
− | \frac{1}{1 + e ^ {-} | + | \frac{1}{1 + e ^ {-x} } |
. | . | ||
$$ | $$ |
Latest revision as of 17:36, 12 January 2021
A probability distribution with distribution function $ \psi ( a x + b ) $,
where $ a $
is scale parameter, $ b $
is a shift and
$$ \psi ( x) = \frac{1}{1 + e ^ {-x} } . $$
The function $ \psi ( x) $ satisfies the differential equation
$$ \frac{d \psi }{d x } = \ \psi ( 1 - \psi ) . $$
The logistic distribution is close to the normal distribution:
$$ \sup _ { x } \ | \psi ( 1 . 7 x ) - \Phi ( x) | < 0 . 0 1 , $$
where $ \Phi ( x) $ is the normal distribution function with mean $ 0 $ and variance 1. To test the hypothesis of coincidence of the distribution functions of two samples of a logistic distribution with possibly different shifts the Wilcoxon test (the Mann–Whitney test) is asymptotically optimal. The logistic distribution is sometimes more convenient than the normal distribution in data processing and the interpretation of inferences. In applications the multi-dimensional logistic distribution is also used.
References
[1] | M.G. Kendall, A. Stuart, "The advanced theory of statistics" , 2. Inference and relationship , Griffin (1979) |
[2] | D.R. Cox, D.V. Hinkley, "Theoretical statistics" , Chapman & Hall (1974) |
Comments
References
[a1] | N.L. Johnson, S. Kotz, "Distributions in statistics" , 1. Continuous univariate distributions , Wiley (1970) |
Logistic distribution. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Logistic_distribution&oldid=47711