Sigma algebra: Difference between revisions

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In mathematics, a sigma algebra is a formal mathematical structure intended among other things to provide a rigid basis for axiomatic probability theory.

Formal definition

Given a set ${\displaystyle \Omega }$ Let ${\displaystyle P=2^{\Omega }}$ be its power set, i.e. set of all subsets of ${\displaystyle \Omega }$. Let F ⊆ P such that all the following conditions are satisfied:

1. ${\displaystyle \varnothing \in \Omega .}$
2. If ${\displaystyle A\in F}$ then ${\displaystyle A^{c}\in F}$
3. If ${\displaystyle G_{i}\in F}$ for ${\displaystyle i=1,2,3,\dots }$ then ${\displaystyle \bigcup _{i=1}^{\infty }G_{i}\in F}$

Examples

• For any set S, the power set 2^S itself is a σ algebra.
• The set of all Borel subsets of the real line is a sigma-algebra.
• Given the set ${\displaystyle \Omega }$={Red,Yellow,Green}, the subset F={{}, {Green}, {Red, Yellow}, {Red,Yellow,Green}} of ${\displaystyle 2^{\Omega }}$ is a σ algebra.

See also

References

External links

• Tutorial