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My question addresses both mathematical and CS issues, but since I need a performant implementation I am posting it here.

Problem:

I have an estimated normal bivariate distribution, defined as a python matrix, but then I will need to transpose the same computation in Java. (dummy values here)

mean = numpy.matrix([[0],[0]])
cov = numpy.matrix([[1,0],[0,1]])

When I receive in inupt a column vector of integers values (x,y) I want to compute the probability of that given tuple.

value = numpy.matrix([[4],[3]])
probability_of_value_given_the_distribution = ???

Now, from a matematical point of view, this would be the integral for 3.5 < x < 4.5 and 2.5 < y < 3.5 over the probability density function of my normal.

What I want to know:

Is there a way to avoid the effective implementation of this, that implies dealing with expressions defined over matrices and with double integrals? Besides that it will take me a while if I had to implement it by myself, this would be computationally expensive. An approximate solution would be perfectly fine for me.

My reasonings:

In an univariate normal, one could simply use the cumulative distribution function (or even store its values for the standard one and then normalize), but unfortunately there appears not to be a closed cdf form for multivariates.

Another approach for univariate is to use the inverse of bivariate approximation (so, approximate a normal as a binomial), but extending this to the multivariate I can't figure out how to keep in count the covariances.

I really hope someone has already implemented this, I need it soon (finishing my thesis) and I couldn't find anything.

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Have you checked Compute the multivariate normal CDF in Java, it seems to be exactly what your trying to do –  iTech Feb 27 '13 at 20:01
    
The cdf is exactly what I need. I'm sorry for not having it specified explicitly. Apparently is not that trivial, I will either make some approximation or use matlab to compute the values that are of interest in my program and store them in a table (program runs on android, so no way to execute fortran code there) –  unziberla Feb 28 '13 at 1:26
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1 Answer

If you are looking for the probabiliy density function of a bivariate normal distribution, below are a few lines that could do the job:

import numpy as np

def multivariate_pdf(vector, mean, cov):
    quadratic_form = np.dot(np.dot(vector-mean,np.linalg.inv(cov)),np.transpose(vector-mean))
    return np.exp(-.5 * quadratic_form)/ (2*np.pi * np.linalg.det(cov))

mean = np.array([0,0])
cov = np.array([[1,0],[0,1]])
vector = np.array([4,3])

pdf = multivariate_pdf(vector, mean, cov)
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sorry, but I need the cumulative density function –  unziberla Feb 28 '13 at 1:28
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