Difference between revisions of "Truncated distribution"
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| − | In the particular case | + | A [[Probability distribution|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 | ||
| + | |||
| + | $$ \tag{1 } | ||
| + | F _ {a,b} ( x) = \ | ||
| + | \left \{ | ||
| + | |||
| + | \begin{array}{ll} | ||
| + | 0 &\textrm{ for } x \leq a, \\ | ||
| + | |||
| + | \frac{F ( x) - F ( a) }{F ( b) - F ( a) } | ||
| + | &\textrm{ for } a < x \leq b, \\ | ||
| + | 1 &\textrm{ for } x > b, a < b. \\ | ||
| + | \end{array} | ||
| + | |||
| + | \right .$$ | ||
| + | |||
| + | 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 | Together with (1) one considers truncated distribution functions of the form | ||
| − | + | $$ \tag{2 } | |
| + | F _ {a,b} ( x) = \ | ||
| + | \left \{ | ||
| + | |||
| + | \begin{array}{ll} | ||
| + | 0 &\textrm{ for } x \leq a, \\ | ||
| + | F ( x) - F ( a) &\textrm{ for } a < x < c, \\ | ||
| + | F ( x) + 1 - F ( b) &\textrm{ for } c \leq x < b, \\ | ||
| + | 1 &\textrm{ for } x \geq b, \\ | ||
| + | \end{array} | ||
| + | |||
| + | \right .$$ | ||
| + | |||
| + | $$ \tag{3 } | ||
| + | F _ {a,b} ( x) = \left \{ | ||
| + | \begin{array}{ll} | ||
| + | 0 &\textrm{ for } x < a, \\ | ||
| + | F ( x) &\textrm{ for } a \leq x < b, \\ | ||
| + | 1 &\textrm{ for } x \geq b. \\ | ||
| + | \end{array} | ||
| + | |||
| + | \right .$$ | ||
| − | < | + | 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 | ||
| − | + | $$ | |
| + | X ^ {c} = \left \{ | ||
| + | \begin{array}{lll} | ||
| + | X &\textrm{ if } &| X | \leq c, \\ | ||
| + | 0 &\textrm{ if } &| X | > c. \\ | ||
| + | \end{array} | ||
| − | + | \right .$$ | |
| − | The distribution of | + | 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. | 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. | ||
====References==== | ====References==== | ||
| − | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> Yu.V. [Yu.V. Prokhorov] Prohorov, Yu.A. Rozanov, "Probability theory, basic concepts. Limit theorems, random processes" , Springer (1969) (Translated from Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> H. Cramér, "Mathematical methods of statistics" , Princeton Univ. Press (1946)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> W. Feller, | + | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> Yu.V. [Yu.V. Prokhorov] Prohorov, Yu.A. Rozanov, "Probability theory, basic concepts. Limit theorems, random processes" , Springer (1969) (Translated from Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> H. Cramér, "Mathematical methods of statistics" , Princeton Univ. Press (1946)</TD></TR> |
| + | <TR><TD valign="top">[3]</TD> <TD valign="top"> W. Feller, [[Feller, "An introduction to probability theory and its applications"|"An introduction to probability theory and its applications"]], '''1–2''' , Wiley (1957–1971)</TD></TR> | ||
| + | <TR><TD valign="top">[4]</TD> <TD valign="top"> M. Loève, "Probability theory" , Springer (1977)</TD></TR></table> | ||
Latest revision as of 14:56, 7 June 2020
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
$$ \tag{1 } F _ {a,b} ( x) = \ \left \{ \begin{array}{ll} 0 &\textrm{ for } x \leq a, \\ \frac{F ( x) - F ( a) }{F ( b) - F ( a) } &\textrm{ for } a < x \leq b, \\ 1 &\textrm{ for } x > b, a < b. \\ \end{array} \right .$$
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
$$ \tag{2 } F _ {a,b} ( x) = \ \left \{ \begin{array}{ll} 0 &\textrm{ for } x \leq a, \\ F ( x) - F ( a) &\textrm{ for } a < x < c, \\ F ( x) + 1 - F ( b) &\textrm{ for } c \leq x < b, \\ 1 &\textrm{ for } x \geq b, \\ \end{array} \right .$$
$$ \tag{3 } F _ {a,b} ( x) = \left \{ \begin{array}{ll} 0 &\textrm{ for } x < a, \\ F ( x) &\textrm{ for } a \leq x < b, \\ 1 &\textrm{ for } x \geq b. \\ \end{array} \right .$$
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
$$ X ^ {c} = \left \{ \begin{array}{lll} X &\textrm{ if } &| X | \leq c, \\ 0 &\textrm{ if } &| X | > c. \\ \end{array} \right .$$
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.
References
| [1] | Yu.V. [Yu.V. Prokhorov] Prohorov, Yu.A. Rozanov, "Probability theory, basic concepts. Limit theorems, random processes" , Springer (1969) (Translated from Russian) |
| [2] | H. Cramér, "Mathematical methods of statistics" , Princeton Univ. Press (1946) |
| [3] | W. Feller, "An introduction to probability theory and its applications", 1–2 , Wiley (1957–1971) |
| [4] | M. Loève, "Probability theory" , Springer (1977) |
Truncated distribution. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Truncated_distribution&oldid=12465