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..