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what is the best approach to generate random samples from bivariate normal and student T distributions? In both cases sigma is one, mean 0 - so the only parameter I am really interested in is correlation (and degrees of freedom for student t). I need to have the solution in C++, so I can't unfortunately use already implemented functions from MatLab or Mathematica.

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rho is correlation, not covariance. –  user2132816 Mar 4 '13 at 17:40

3 Answers 3

up vote 5 down vote accepted

You can use the GNU GSL libraries. See here for Bivariate normal:


and Student's t-distribution here:


They are straight forward to use.

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Cool, they have the bivariate Gaussian, but the Student T seems to be only univariate :( –  Grzenio Jan 24 '10 at 18:34
You can simulate from a multivariate t distribution using the representation of the multivariate t in terms of a multivariate normal and a chi2 distribution. GSL has both MVN and Chi2, so you are set. See the first paragraph: en.wikipedia.org/wiki/Multivariate_Student_distribution. –  Tristan Jan 24 '10 at 22:01

For a bivariate normal with covariance unity and zero mean, just draw two univariate normals.

If you want to draw a bivariate normal with means (m1, m2), standard deviations (s1, s2) and covariance rho, then draw two unit univariate normals X and Y and set

u = m1 + s1 * X
v = m2 + s2 * (rho X + sqrt(1 - rho^2) Y)

Then u and v are distributed as you wish.

For the Student T, you have to draw a normal variate N and a chi^2 variate V. Then, N / sqrt(V) has T distribution.

To draw the chi^2, you should use a package. Or have a look at Numerical Recipes chapter 7 for how to draw from a Gamma distribution (xhi^2 is a special case of Gamma).

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You should take a look at the Boost libraries random distributions - see http://www.boost.org/doc/libs/1_41_0/libs/random/random-distributions.html. I've found them very easy to use, once you wrap your head around their basic concepts. Unfortunately, I don't know enough about statistics to tell you whether they will exactly meet your needs.

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They don't seem to implement any of the distributions I am after :( –  Grzenio Jan 24 '10 at 18:35

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