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I have a random variable X that is a mixture of a binomial and two normals (see what the probability density function would look like (first chart))
and I have another random variable Y of similar shape but with different values for each normally distributed side.

X and Y are also correlated, here's an example of data that could be plausible :

    X     Y
1.  0    -20
2. -5     2
3. -30    6
4.  7    -2
5.  7     2

As you can see, that was simply to represent that my random variables are either a small positive (often) or a large negative (rare) and have a certain covariance.

My problem is : I would like to be able to sample correlated and random values from these two distributions.

I could use Cholesky decomposition for generating correlated normally distributed random variables, but the random variables we are talking here are not normal but rather a mixture of a binomial and two normals.

Many thanks!

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you need the mathematical relationship between the variables (X Y) to be able to sample them in a joint distribution – Dr. belisarius Dec 17 '10 at 3:31
    
@belisarius Thanks for your comment. As of now, I am not sure how to calculate the mathematical relationship between the variables (X Y)...maybe it's just the formulation that I don't understand? Also from my first question that you participated in (where you visually computed the PDF), one user was saying that calculating the joint distribution could be quite painful and cumbersome...so I did not research how to do that and don't know yet how it should be done – ibiza Dec 17 '10 at 13:46
    
If you are able to use Cholesky, then you know the relationship. It is just the value(s) in the lower left of the matrix. (The L part of the LU.) – Xodarap Dec 19 '10 at 2:48
up vote 1 down vote accepted

Note, you don't have a mixture of a binomial and two normals, but rather a mixture of two normals. Even though for some reason in your previous post you did not want to use a two-step generation process (first genreate a Bernoulli variable telling which component to sample from, and then sampling from that component), that is typically what you would want to do with a mixture distribution. This process naturally generalizes to a mixture of two bivariate normal distributions: first pick a component, and then generate a pair of correlated normal values. Your description does not make it clear whether you are fitting some data with this distribution, or just trying to simulate such a distribution - the difficulty of getting the covariance matrices for the two components will depend on your situation.

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