Difference between revisions of "Lindeberg-Feller theorem"
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− | B _ {n} ^ {2} = \ | + | B _ {n} ^ {2} = \sum_{j=1}^ { n } \sigma _ {j} ^ {2} ,\ \ |
V _ {j} ( x) = {\mathsf P} \{ x _ {j} < x \} . | V _ {j} ( x) = {\mathsf P} \{ x _ {j} < x \} . | ||
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− | B _ {n} ^ {-} | + | B _ {n} ^ {-2} \max _ {1 \leq j \leq n } \ |
\sigma _ {j} ^ {2} \rightarrow 0 | \sigma _ {j} ^ {2} \rightarrow 0 | ||
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− | {\mathsf P} \left \{ B _ {n} ^ {-} | + | {\mathsf P} \left \{ B _ {n} ^ {-1} \sum_{j=1}^ { n } |
( X _ {i} - a _ {j} ) < x \right \} \rightarrow \ | ( X _ {i} - a _ {j} ) < x \right \} \rightarrow \ | ||
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− | B _ {n} ^ {-} | + | B _ {n} ^ {-2} \sum_{j=1}^ { n } |
\int\limits _ {| x - a _ {j} | \geq \epsilon B _ {n} } | \int\limits _ {| x - a _ {j} | \geq \epsilon B _ {n} } | ||
( x - a _ {j} ) ^ {2} d V _ {j} ( x) \rightarrow 0 | ( x - a _ {j} ) ^ {2} d V _ {j} ( x) \rightarrow 0 |
Latest revision as of 17:05, 13 January 2024
A theorem that establishes necessary and sufficient conditions for the asymptotic normality of the distribution function of sums of independent random variables that have finite variances. Let $ X _ {1} , X _ {2} \dots $
be a sequence of independent random variables with means $ a _ {1} , a _ {2} \dots $
and finite variances $ \sigma _ {1} ^ {2} , \sigma _ {2} ^ {2} \dots $
not all of which are zero. Let
$$ B _ {n} ^ {2} = \sum_{j=1}^ { n } \sigma _ {j} ^ {2} ,\ \ V _ {j} ( x) = {\mathsf P} \{ x _ {j} < x \} . $$
In order that
$$ B _ {n} ^ {-2} \max _ {1 \leq j \leq n } \ \sigma _ {j} ^ {2} \rightarrow 0 $$
and
$$ {\mathsf P} \left \{ B _ {n} ^ {-1} \sum_{j=1}^ { n } ( X _ {i} - a _ {j} ) < x \right \} \rightarrow \ \frac{1}{\sqrt {2 \pi }} \int\limits _ {- \infty } ^ { x } e ^ {- t ^ {2} /2 } d t $$
for any $ x $ as $ n \rightarrow \infty $, it is necessary and sufficient that the following condition (the Lindeberg condition) is satisfied:
$$ B _ {n} ^ {-2} \sum_{j=1}^ { n } \int\limits _ {| x - a _ {j} | \geq \epsilon B _ {n} } ( x - a _ {j} ) ^ {2} d V _ {j} ( x) \rightarrow 0 $$
as $ n \rightarrow \infty $ for any $ \epsilon > 0 $. Sufficiency was proved by J.W. Lindeberg [1] and necessity by W. Feller [2].
References
[1] | J.W. Lindeberg, "Eine neue Herleitung des Exponentialgesetzes in der Wahrscheinlichkeitsrechnung" Math. Z. , 15 (1922) pp. 211–225 |
[2] | W. Feller, "Ueber den zentralen Grenzwertsatz der Wahrscheinlichkeitsrechnung" Math. Z. , 40 (1935) pp. 521–559 |
[3] | M. Loève, "Probability theory" , Springer (1977) |
[4] | V.V. Petrov, "Sums of independent random variables" , Springer (1975) (Translated from Russian) |
Lindeberg-Feller theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lindeberg-Feller_theorem&oldid=55057