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I have a question concerning fitting and getting random numbers.

Situation is as such:

Firstly I have a histogram from data points. I would like to interpret this histogram as probability density function (with e.g. 2 free parameters) so that I can use it to produce random numbers AND also I would like to use that function to fit another histogram.

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closed as not a real question by msw, C. A. McCann, ataylor, ninesided, NullPoiиteя Nov 20 '12 at 18:12

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

maybe this questoin should be reopened and improved –  Saullo Castro May 20 '13 at 12:33
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1 Answer

up vote 2 down vote accepted

You can use a cumulative density function to generate random numbers from an arbitrary distribution, as described here.

Using a histogram to produce a smooth cumulative density function is not entirely trivial; you can use interpolation for example scipy.interpolate.interp1d() for values in between the centers of your bins and that will work fine for a histogram with a reasonably large number of bins and items. However you have to decide on the form of the tails of the probability function, ie for values less than the smallest bin or greater than the largest bin. You could give your distribution gaussian tails based on for example fitting a gaussian to your histogram), or any other form of tail appropriate to your problem, or simply truncate the distribution.


import numpy
import scipy.interpolate
import random
import matplotlib.pyplot as pyplot

# create some normally distributed values and make a histogram
a = numpy.random.normal(size=10000)
counts, bins = numpy.histogram(a, bins=100, density=True)
cum_counts = numpy.cumsum(counts)
bin_widths = (bins[1:] - bins[:-1])

# generate more values with same distribution
x = cum_counts*bin_widths
y = bins[1:]
inverse_density_function = scipy.interpolate.interp1d(x, y)
b = numpy.zeros(10000)
for i in range(len( b )):
    u = random.uniform( x[0], x[-1] )
    b[i] = inverse_density_function( u )

# plot both        
pyplot.hist(a, 100) 
pyplot.hist(b, 100)

This doesn't handle tails, and it could handle bin edges better, but it would get you started on using a histogram to generate more values with the same distribution.

P.S. You could also try to fit a specific known distribution described by a few values (which I think is what you had mentioned in the question) but the above non-parametric approach is more general-purpose.

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,thank you for the quick reply, the interpolation was also in my mind, but as u said firstly it cant take care of the outliers and also that is not really a density functions but more a copy of the initial histogram. –  madzone Nov 21 '12 at 13:11
this is my final version, it works smoothly, thanks again. bins=np.linspace(0,.5,num=800) counts18, bins = np.histogram(Z_DATA[InData18], bins=bins) x=np.cumsum(counts18)*1./np.sum(counts18)*1. y=bins[range(len(x)+1)] y=y[1:] fit=scipy.interpolate.interp1d(x,y) plt.hist(fit(np.random.uniform(x[0],x[-1],len(data))),bins=y) plt.hist(data,alpha=0.3,bins=y) plt.show() –  madzone Feb 28 '13 at 15:11
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