Difference between revisions of "Truncated distribution"

A probability distribution obtained from a given distribution by transfer of probability mass outside a given interval to within this interval. Let a probability distribution on the line be given by a distribution function $ F $. The truncated distribution corresponding to $ F $ is understood to be the distribution function

$$ \tag{1 } F _ {a,b} ( x) = \ \left \{ In the particular case $ a = - \infty $( $ b = \infty $) the truncated distribution is said to be right truncated (left truncated). Together with (1) one considers truncated distribution functions of the form $$ \tag{2 } F _ {a,b} ( x) = \ \left \{

$$ \tag{3 } F _ {a,b} ( x) = \left \{ In (1) the mass concentrated outside $ [ a, b] $ is distributed over the whole of $ [ a, b] $, in (2) it is located at the point $ c \in ( a, b] $( in this case, when $ a < 0 < b $, one usually takes for $ c $ the point $ c = 0 $), and in (3) this mass is located at the extreme points $ a $ and $ b $. A truncated distribution of the form (1) may be interpreted as follows. Let $ X $ be a random variable with distribution function $ F $. Then the truncated distribution coincides with the conditional distribution of the random variable under the condition $ a < X \leq b $. The concept of a truncated distribution is closely connected with the concept of a truncated random variable: If $ X $ is a random variable, then by a truncated random variable one understands the variable $$ X ^ {c} = \left \{

The distribution of $ X ^ {c} $ is a truncated distribution of type (3) (with $ a=- c $, $ b= c $) with respect to the distribution of $ X $.

The truncation operation — passing to the truncated distribution or truncated random variable — is a very widespread technical device. It makes it possible, by a minor change in the initial distribution, to obtain an analytic property — existence of all moments.

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