Sigma algebra: Difference between revisions

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

Example

Given the set ${\displaystyle \Omega }$={Red,Yellow,Green}

The power set ${\displaystyle 2^{\Omega }}$ is {A0,A1,A2,A3,A4,A5,A6,A7}, with

• A0={} (The empty set}
• A1={Green}
• A2={Yellow}
• A3={Yellow, Green}
• A4={Red}
• A5={Red, Green}
• A6={Red, Yellow}
• A7={Red, Yellow, Green} (the whole set ${\displaystyle \Omega }$)

Let F={A0, A1, A4, A5, A7}, a subset of ${\displaystyle 2^{\Omega }}$.

Notice that the following is satisfied:

1. The empty set is in F.
2. The original set ${\displaystyle \Omega }$ is in F.
3. For any set in F, you'll find it's complement in F as well.
4. For any subset of F, the union of the sets therein will also be in F. For example, the union of all elements in the subset {A0,A1,A4} of F is A0 U A1 U A4 = A5.

Thus F is a sigma algebra over ${\displaystyle \Omega }$.

See also

References

External links

• Tutorial