# how to calculate the estimated joint probability distribution for the red and green pixels only in a png image?

I have a png image that contains the red and green channels only. I removed the blue channel from the image for calculation purposes. I need to calculate the estimated joint probability distribution for these pixels. I came across this function: numpy.random.multivariate_normal(mean, cov[, size]) but this one computes the known distribution. I need to calculate the estimated distribution. Any suggestions? Thanks a lot. Areej

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It sounds like you want the 2d histogram of the intensity values. Do you want to fit this histogram with a normal distribution (ie calculate the mean and covariance matrix)? – Bi Rico Jan 25 '12 at 15:26
first of all thanks a lot for your reply Bago. I don't know a lot a bout stats. All I know is that I want the estimated joint probability distribution because it is required for the mutual information calculation. – Areej F Jan 26 '12 at 9:34

## 2 Answers

Using scipy, there are a number of distributions you can fit to data. Here's an example of how to do that, assuming you're loading your image from a .png or .jpg or related file:

from PIL import Image
import numpy
import scipy.stats as ss

im = numpy.array(Image.open("myfile.png")
red = im[:,:,0]
green = im[:,:,1]

from matplotlib import pyplot
pyplot.hist(red.ravel())
pyplot.hist(green.ravel())

# if your data follow a normal distribution
print "red mean: %g  sigma: %g" % ss.norm.fit(red.ravel())
print "green mean: %g  sigma: %g" % ss.norm.fit(green.ravel())

If you want a different distribution, replace norm above with one of these: http://docs.scipy.org/doc/scipy/reference/stats.html

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hi keflavich. Thanks a lot for your reply. I need the joint prob. distribution because it is required for the mutual information calculation:Formally, the mutual information of two discrete random variables X and Y can be defined as: I(X;Y) = \sum_{y \in Y} \sum_{x \in X} p(x,y) \log{ \left(\frac{p(x,y)}{p(x)\,p(y)} \right) }, \,\! where p(x,y) is the joint probability distribution function of X and Y, and p(x) and p(y) are the marginal probability distribution functions of X and Y respectively. So does that code you gave me generate what I am looking for? thanks – Areej F Jan 26 '12 at 9:40
No, I answered a different question; my solution only gives you the marginal distributions. This thread asks the same question you did: old.nabble.com/…. Suki's answer gets you the distribution directly from the data. – keflavich Jan 26 '12 at 15:16
ok thanks a lot keflavich for all your help – Areej F Jan 26 '12 at 19:13

it's easy to bin the data into a set of histograms

#2d histogram gives you the counts, in each cell
(H,redEdges,greedEdges) = numpy.histogram2d(
red.ravel(),green.ravel(),
bins=nbins
)

#divide by the total to get the probability of
#each cell -> the joint distribution
Prg = H/H.sum()

#sum over the green axis to get the red marginal (nx1)
Pr = H2d.sum(1)[:,numpy.newaxis]
#sum over the red axis to get the green marginal (1xn)
Pg = H2d.sum(0)[numpy.newaxis,:]

From there the mutual information is easy:

#calculate information contribution of each bin
dIrg = Prg*numpy.log(Prg/(Pr*Pg))
#filter nans and sum
Irg = dIrg[~numpy.isnan(dIrg)].mean()
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Wow Suki this looks great. Thanks a lot. I have not tried it yet but if I try it and still have problems can I e-mail you? – Areej F Jan 26 '12 at 19:17
Hi Suki. I ran the code but I still have an error at the last line. This is the error:Warning: divide by zero encountered in log Warning: invalid value encountered in multiply Traceback (most recent call last): File "pyentlast.py", line 293, in <module> test() File "pyentlast.py", line 288, in test Irg = dIrg(~np.isnan(dIrg)).sum() TypeError: 'numpy.ndarray' object is not callable how do I fix that? Thanks – Areej F Jan 27 '12 at 12:13
Never mind i fixed that error but the final result for mutual information is negative! It should be positive right? – Areej F Jan 27 '12 at 13:18