Regular conditional probability

Regular conditional probability is a concept that has developed to overcome certain difficulties in formally defining conditional probabilities for continuous probability distributions. It is defined as an alternative probability measure conditioned on a particular value of a random variable.

Motivation

Normally we define the conditional probability of an event A given an event B as:

The difficulty with this arises when the event B is too small to have a non-zero probability. For example, suppose we have a random variable X with a uniform distribution on and B is the event that Clearly, the probability of B, in this case, is but nonetheless we would still like to assign meaning to a conditional probability such as To do so rigorously requires the definition of a regular conditional probability.

Definition

Let be a probability space, and let be a random variable, defined as a Borel-measurable function from to its state space . One should think of as a way to "disintegrate" the sample space into . Using the disintegration theorem from the measure theory, it allows us to "disintegrate" the measure into a collection of measures, one for each . Formally, a regular conditional probability is defined as a function called a "transition probability", where:

  • For every , is a probability measure on . Thus we provide one measure for each .
  • For all , (a mapping ) is -measurable, and
  • For all and all [1]

where is the pushforward measure of the distribution of the random element , i.e. the topological support of the . Specifically, if we take , then , and so

,

where can be denoted, using more familiar terms (this is "defined" to be conditional probability of given , which can be undefined in elementary constructions of conditional probability). As can be seen from the integral above, the value of for points x outside the support of the random variable is meaningless; its significance as a conditional probability is strictly limited to the support of T.

The measurable space is said to have the regular conditional probability property if for all probability measures on all random variables on admit a regular conditional probability. A Radon space, in particular, has this property.

See also conditional probability and conditional probability distribution.

Alternate definition

Consider a Radon space (that is a probability measure defined on a Radon space endowed with the Borel sigma-algebra) and a real-valued random variable T. As discussed above, in this case there exists a regular conditional probability with respect to T. Moreover, we can alternatively define the regular conditional probability for an event A given a particular value t of the random variable T in the following manner:

where the limit is taken over the net of open neighborhoods U of t as they become smaller with respect to set inclusion. This limit is defined if and only if the probability space is Radon, and only in the support of T, as described in the article. This is the restriction of the transition probability to the support of T. To describe this limiting process rigorously:

For every there exists an open neighborhood U of the event {T=t}, such that for every open V with

where is the limit.

Example

To continue with our motivating example above, we consider a real-valued random variable X and write

(where for the example given.) This limit, if it exists, is a regular conditional probability for X, restricted to

In any case, it is easy to see that this limit fails to exist for outside the support of X: since the support of a random variable is defined as the set of all points in its state space whose every neighborhood has positive probability, for every point outside the support of X (by definition) there will be an such that

Thus if X is distributed uniformly on it is truly meaningless to condition a probability on "".

gollark: \🐝
gollark: ++magic py await (await ctx.channel.fetch_message(799219131886993448)).add_reaction("\🐝")
gollark: ++magic py ctx.channel.fetch_message(799219131886993448)
gollark: ++magic py ctx.guild.fetch_message(799219131886993448)
gollark: Okay, restarted the bot.

See also

References

  1. D. Leao Jr. et al. Regular conditional probability, disintegration of probability and Radon spaces. Proyecciones. Vol. 23, No. 1, pp. 15–29, May 2004, Universidad Católica del Norte, Antofagasta, Chile PDF
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.