This is a quick post on the different kinds of convergence that a sequence of random variable can have in a probability space.
Let us suppose that we have a sequence of random variables , in a probability space . is the probability space, is the σ-algebra of measurable sets and P is the probability measure.
First of all, here’s a list of the different modes of convergence for such sequences, along with notation.
- is equivalent to saying that . This is called almost sure convergence or convergence almost everywhere.
- is equivalent to saying that . This is called convergence in probability. Essentially, this is just convergence in measure from real analysis.
- for is equivalent to saying that as . Here denotes the mean value of a random variable X. This is called convergence in or convergence in mean.
- is equivalent to saying that as for any f : integrable. This called convergence in distribution and it’s weak convergence in probability theory.
Now, here’s a graph that illustrates the equivalencies between the convergence modes stated.
Another thing to note is that there exist notions of Cauchy sequences of random variables and that we can say more than this graph represents. For example, if we have convergence in , then we also have convergence in for any . For a complete list of all possible cases, see here.