Difference between revisions of "Asymptotically-unbiased estimator"
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| − | + | A concept indicating that the estimator is unbiased in the limit (cf. [[Unbiased estimator|Unbiased estimator]]). Let $ X _ {1} , X _ {2} \dots $ | |
| + | be a sequence of random variables on a probability space $ ( \Omega , S, P ) $, | ||
| + | where $ P $ | ||
| + | is one of the probability measures in a family $ {\mathcal P} $. | ||
| + | Let a function $ g(P) $ | ||
| + | be given on the family $ {\mathcal P} $, | ||
| + | and let there be a sequence of $ S $- | ||
| + | measurable functions $ T _ {n} ( X _ {1} \dots X _ {n} ) $, | ||
| + | $ n = 1, 2 \dots $ | ||
| + | the mathematical expectations of which, $ {\mathsf E} _ {P} T _ {n} ( X _ {1} \dots X _ {n} ) $, | ||
| + | are given. Then, if, as $ n \rightarrow \infty $, | ||
| − | + | $$ | |
| + | {\mathsf E} _ {P} T _ {n} ( X _ {1} \dots X _ {n} ) \rightarrow \ | ||
| + | g (P),\ P \in {\mathcal P} , | ||
| + | $$ | ||
| − | for | + | one says that $ T _ {n} $ |
| + | is a function which is asymptotically unbiased for the function $ g $. | ||
| + | If one calls $ X _ {1} , X _ {2} \dots $" | ||
| + | observations" and $ T _ {n} $" | ||
| + | estimators" , one obtains the definition of an asymptotically-unbiased estimator. In the simplest case of unlimited repeated sampling from a population, the distribution of which depends on a one-dimensional parameter $ \theta \in \Theta $, | ||
| + | an asymptotically-unbiased estimator $ T _ {n} $ | ||
| + | for $ g ( \theta ) $, | ||
| + | constructed with respect to the sample size $ n $, | ||
| + | satisfies the condition | ||
| + | |||
| + | $$ | ||
| + | {\mathsf E} _ \theta T _ {n} ( X _ {1} \dots X _ {n} ) | ||
| + | \rightarrow g ( \theta ) | ||
| + | $$ | ||
| + | |||
| + | for any $ \theta \in \Theta $, | ||
| + | as $ n \rightarrow \infty $. | ||
Latest revision as of 18:48, 5 April 2020
A concept indicating that the estimator is unbiased in the limit (cf. Unbiased estimator). Let $ X _ {1} , X _ {2} \dots $
be a sequence of random variables on a probability space $ ( \Omega , S, P ) $,
where $ P $
is one of the probability measures in a family $ {\mathcal P} $.
Let a function $ g(P) $
be given on the family $ {\mathcal P} $,
and let there be a sequence of $ S $-
measurable functions $ T _ {n} ( X _ {1} \dots X _ {n} ) $,
$ n = 1, 2 \dots $
the mathematical expectations of which, $ {\mathsf E} _ {P} T _ {n} ( X _ {1} \dots X _ {n} ) $,
are given. Then, if, as $ n \rightarrow \infty $,
$$ {\mathsf E} _ {P} T _ {n} ( X _ {1} \dots X _ {n} ) \rightarrow \ g (P),\ P \in {\mathcal P} , $$
one says that $ T _ {n} $ is a function which is asymptotically unbiased for the function $ g $. If one calls $ X _ {1} , X _ {2} \dots $" observations" and $ T _ {n} $" estimators" , one obtains the definition of an asymptotically-unbiased estimator. In the simplest case of unlimited repeated sampling from a population, the distribution of which depends on a one-dimensional parameter $ \theta \in \Theta $, an asymptotically-unbiased estimator $ T _ {n} $ for $ g ( \theta ) $, constructed with respect to the sample size $ n $, satisfies the condition
$$ {\mathsf E} _ \theta T _ {n} ( X _ {1} \dots X _ {n} ) \rightarrow g ( \theta ) $$
for any $ \theta \in \Theta $, as $ n \rightarrow \infty $.
How to Cite This Entry:
Asymptotically-unbiased estimator. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Asymptotically-unbiased_estimator&oldid=12532
Asymptotically-unbiased estimator. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Asymptotically-unbiased_estimator&oldid=12532
This article was adapted from an original article by O.V. Shalaevskii (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article