Probability space
Contents
Definition
Given a measure space [ilmath](X,\mathcal{A},\mu)[/ilmath] where [math]\mu[/math] is a Probability measure[1], we recall that [math]\mu(X)=1[/math] (and we will write [ilmath]\mu[/ilmath] as [ilmath]\mathbb{P} [/ilmath] in line with notation).
Now [ilmath](X,\mathcal{A},\mathbb{P})[/ilmath] is a Probability space
A Probability space is usually denoted [ilmath](\Omega,\mathcal{A},\mathbb{P})[/ilmath], here:
| Name | Symbol | Type | Description |
|---|---|---|---|
|
[ilmath]\Omega[/ilmath] | Set | All the different states one can have or samples one can take |
|
[ilmath]\mathcal{A} [/ilmath] | [ilmath]\sigma[/ilmath]-algebra | The events we can have |
|
[ilmath]\mathbb{P} [/ilmath] | Function [math]\mathbb{P}:\mathcal{A}\rightarrow[0,1]\subset\mathbb{R}[/math] | Assigns probabilities to events |
Example
Discrete probability space
Let us consider two die being thrown as our state or sample space - I prefer state because it is the set of states the experiment may take.
Then:
| Part of prob. space | Definition | Comment |
|---|---|---|
| State space | [math]\begin{array}{lr} \Omega=\{ & (1,1), & (1,2), & \cdots &, (1,6),\\ & (2,1), & (2,2), & \cdots &, (2,6), \\ & \vdots \\ & (6,1), & (6,2), & \cdots &, (6,6) & \} \end{array}[/math] | The set of all possible states, there are 36 all-together. |
| Event space | [math]\mathcal{P}(\Omega)[/math] (see power set) = all subsets of [ilmath]\Omega[/ilmath] |
Union works as or, for example [math]\{(1,2),(3,4)\}[/math] is the event that we get [ilmath](1,2)[/ilmath] or [ilmath](3,4)[/ilmath] |
| Probability measure | [math]\mathbb{P}:\mathcal{P}(\Omega)\rightarrow[0,1]\subset\mathbb{R}[/math] where: [math]\mathbb{P}(A)\mapsto \frac{1}{36}|A|[/math] |
Clearly [math]\mathbb{P}(\Omega)=1[/math] and this is a measure! |
This example alone isn't very interesting, it becomes interesting when one considers the random variable which could be for example the sum of the values shown on the die. That example is used on the random variable page.
Continuous probability space
TODO: Think of example - Normal?
See also
References
- ↑ p22 - Measures, Integrals and Martingales - Rene L. Schilling
