Difference between revisions of "Complete probability formula"
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| − | + | A relationship enabling one to calculate the unconditional probability of an event via its conditional probabilities with respect to events forming a complete set of alternatives. | |
| − | and | + | More precisely, let $ ( \Omega , {\mathcal A} , {\mathsf P}) $ |
| + | be a probability space, and let $ A, A _ {1} \dots A _ {n} \in {\mathcal A} $ | ||
| + | be events for which $ A _ {i} \cap A _ {j} = \emptyset $ | ||
| + | for $ i \neq j $, | ||
| + | $ i, j = 1 \dots n $, | ||
| − | + | $$ | |
| + | \cup _ { k= } 1 ^ { n } A _ {k} = \Omega , | ||
| + | $$ | ||
| − | + | and $ {\mathsf P} ( A _ {k} ) > 0 $ | |
| + | for all $ k $. | ||
| + | Then one has the complete probability formula: | ||
| − | + | $$ | |
| + | {\mathsf P} ( A) = \sum _ { k= } 1 ^ { n } {\mathsf P} ( A \mid A _ {k} ) {\mathsf P} ( A _ {k} ). | ||
| + | $$ | ||
| − | + | The complete probability formula also holds when the number of events $ A _ {1} , A _ {2} \dots $ | |
| + | is infinite. | ||
| + | The complete probability formula holds for mathematical expectations. Let $ X ( \omega ) $, | ||
| + | $ \omega \in \Omega $, | ||
| + | be a random variable on $ ( \Omega , {\mathcal A} , {\mathsf P}) $, | ||
| + | let $ {\mathsf E} X $ | ||
| + | be its mathematical expectation and $ {\mathsf E}( X \mid A _ {k} ) $ | ||
| + | the conditional mathematical expectations with respect to events $ A _ {k} $ | ||
| + | which form a complete set of alternatives. Then | ||
| + | $$ | ||
| + | {\mathsf E} X = \sum _ { k } {\mathsf E} ( X \mid A _ {k} ) {\mathsf P} ( A _ {k} ). | ||
| + | $$ | ||
====Comments==== | ====Comments==== | ||
| − | A complete set of alternatives is also called a partition of the sample space. A collection of events | + | A complete set of alternatives is also called a partition of the sample space. A collection of events $ A _ {k} $ |
| + | forms a partition if the events are disjoint, have positive probability and if their union is the sample space. | ||
Revision as of 17:45, 4 June 2020
A relationship enabling one to calculate the unconditional probability of an event via its conditional probabilities with respect to events forming a complete set of alternatives.
More precisely, let $ ( \Omega , {\mathcal A} , {\mathsf P}) $ be a probability space, and let $ A, A _ {1} \dots A _ {n} \in {\mathcal A} $ be events for which $ A _ {i} \cap A _ {j} = \emptyset $ for $ i \neq j $, $ i, j = 1 \dots n $,
$$ \cup _ { k= } 1 ^ { n } A _ {k} = \Omega , $$
and $ {\mathsf P} ( A _ {k} ) > 0 $ for all $ k $. Then one has the complete probability formula:
$$ {\mathsf P} ( A) = \sum _ { k= } 1 ^ { n } {\mathsf P} ( A \mid A _ {k} ) {\mathsf P} ( A _ {k} ). $$
The complete probability formula also holds when the number of events $ A _ {1} , A _ {2} \dots $ is infinite.
The complete probability formula holds for mathematical expectations. Let $ X ( \omega ) $, $ \omega \in \Omega $, be a random variable on $ ( \Omega , {\mathcal A} , {\mathsf P}) $, let $ {\mathsf E} X $ be its mathematical expectation and $ {\mathsf E}( X \mid A _ {k} ) $ the conditional mathematical expectations with respect to events $ A _ {k} $ which form a complete set of alternatives. Then
$$ {\mathsf E} X = \sum _ { k } {\mathsf E} ( X \mid A _ {k} ) {\mathsf P} ( A _ {k} ). $$
Comments
A complete set of alternatives is also called a partition of the sample space. A collection of events $ A _ {k} $ forms a partition if the events are disjoint, have positive probability and if their union is the sample space.
Complete probability formula. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Complete_probability_formula&oldid=15372