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I have lost idea how to generate some bivariate random mumbers, say in copula. The marginals are of different distribution, i.e. t, gamma, and the joint structure can be gaussian or t. I will have to fixed their kendall tau. And I want to examine how the pearson rho of those random numbers are different from the presetted tau.

Any suggestion? A piece of prototype in R/Matlab is highly appreciated!

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For copulas in R, you could take a look at cran.r-project.org/web/packages/copula/index.html –  Paul Hiemstra May 14 '12 at 12:15

2 Answers 2

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If you have Statistics Toolbox you can generate random numbers from copulas using the function copularnd. There are several examples in the documentation. To convert between using Kendall's tau and Pearson's rho, take a look at copulaparam and copulastat.

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Thank you @Sam Roberts. For someone else has the similar question like this, try: >> tau = 0.5; % Predefine the Kendall's tau >> rho = copulaparam('gaussian',tau); % Convert tau to Pearson's rho >> uu = copularnd('gaussian',rho,5000); % generate random numbers in Gaussian copula >> aa = tinv(uu(:,1),5); % transform uniforms to t margin (df=5) >> bb = norminv(uu(:,2)); % transform uniforms to standard normal margin >> scatter(aa,bb); % scatter plot –  onethird May 14 '12 at 12:30

If you have two different variables x1, x2 you can use the copula theory in order to generate some random numbers. So you have to compute the CDF of the variables:

[Fi1, xi1] = ecdf(x1);

[Fi2, xi2] = ecdf(x2);

or

Fi1 = ksdensity(x1,x1, 'function','cdf');

Fi2 = ksdensity(x2,x2, 'function','cdf');

Subsequently, you can compute the kendall's tau correlation as follows:

tau = corr(x1,x2, 'type', 'kendall');

rho = copulaparam('t',tau, nu, 'type','kendall');

With the aim of copularnd you can generate random values (n=1000) of Gaussian, t, Clayton, Frank, or Gumbel copula and then you only have to estimate the inverse cdf of the copula with the aim of the desired distribution.

n = 1000;

U = copularnd('Gaussian',[1  rho;rho 1],n);

% Inverse cdf of Gamma distribution 

X1 = gaminv(U(:,1),2,1);

% Inverse cdf of Student's t distribution

X2 = tinv(U(:,2),5); 

or

X1 = ksdensity(x1, U(:,1), 'function','icdf','width',.15);
X2 = ksdensity(x2, U(:,2), 'function','icdf','width',.15);

So, now the X1 and X2 represent the new random values that have been generated from the initial x1 and x2 variables.

I am new in copula statistics, so excuse me if I made a mistake..

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