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I'd like to generate correlated arrays of x and y coordinates, in order to test various matplotlib plotting approaches, but I'm failing somewhere, because I can't get numpy.random.multivariate_normal to give me the samples I want. Ideally, I want my x values between -0.51, and 51.2, and my y values between 0.33 and 51.6 (though I suppose equal ranges would be OK, since I can constrain the plot afterwards), but I'm not sure what mean (0, 0?) and covariance values I should be using to get these samples from the function.

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As the name implies numpy.random.multivariate_normal generates normal distributions, this means that there is a non-null probability of finding points outside of any given interval. You can generate correlated uniform distributions but this a little more convoluted. Take a look here for two possible methods.

If you want to go with the normal distribution you can set up the sigmas so that your half-interval correspond to 3 standard deviations (you can also filter out the bad points if needed). In this way you will have ~99% of your points inside your interval, ex:

import numpy as np
from matplotlib.pyplot import scatter

xx = np.array([-0.51, 51.2])
yy = np.array([0.33, 51.6])
means = [xx.mean(), yy.mean()]  
stds = [xx.std() / 3, yy.std() / 3]
corr = 0.8         # correlation
covs = [[stds[0]**2          , stds[0]*stds[1]*corr], 
        [stds[0]*stds[1]*corr,           stds[1]**2]] 

m = np.random.multivariate_normal(means, covs, 1000).T
scatter(m[0], m[1])

enter image description here

  • 1
    Would it be possible to implement a variation in order to create a correlated variable (i.e. numpy array) from an existing numpy array which has its own average and stdev? – Odisseo Jan 9 '19 at 15:50

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