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I have got a Gaussian mixture distribution object obj of 64 dimensions and would like to put it in the pdf function to find out the probability of certain point.

Yet when I type pdf(obj,obj.mu(1,:)) to test the object it yield a very high probability (like 2.4845e+069)

And it does not make sense, cause probability should lies between zero and one.

Is my matlab having any problem?

p.s. even pdf(obj,obj.mu(1,:)+obj.Sigma(1,1)*rand()) yield a high probability (2.1682e+069)

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The probability density function does not provide the probability of a certain value. To answer your question it would be helpful if you posted the creation of obj. –  Deve Mar 21 '13 at 8:07
@Deve obj is generated through the standard gmdistribution function. –  Rein Mar 21 '13 at 16:51
I anticipated that. What parameters did you pass to that function? –  Deve Mar 21 '13 at 17:06
@Deve The parameters are estimated by using EM algorithm. The code I used is the code written by Mo Chen, this is the link. –  Rein Mar 22 '13 at 2:52
@Deve I have also tried the standard gmdistribution.fit function. It yield the same result. Following is the code: obj = gmdistribution.fit(features',3) pdf(obj, features(:,1)') and the result is still very high ans = 1.1505e+051 –  Rein Mar 22 '13 at 3:56

1 Answer 1

up vote 1 down vote accepted

First things first: a probability density function does not always evaluate to 1, it merely integrates to 1 over its domain.

Moreover, what you are seeing is the problem of singularities (see page 434, figure 9.7) when fitting a gaussian mixture model. Some component collapsing onto a single data point inevitably causes the variance to go to 0 and the PDF to explode. This is often encountered in gaussian mixture models because it is not log-convex and there are lots of local maxima in the likelihood function. We try to find a well-behaved local maximum that performs well, and the singularities are particularly bad cases.

When you see this, you will want to rerun the algorithm with different starting points or to reduce the number of components you are using. The book above also recommends just resetting the particular component to a different value.

Another approach would be to use a Bayesian approach by adopting a prior or regularization term for your parameters, which will penalize outlandish values such as 0 sigma parameters.

You can indirectly control the first part using different starting values in gmdistribution.fit. For the second part, you can use the Regularize argument: http://www.mathworks.com/help/stats/gmdistribution.fit.html

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Thanks very much! Very detail explanation! I checked the covariance matrix and found that there are many zero entries. After applying the regularize term the probability kind of making sense now. Yet the value becomes very low: pdf(obj, obj.mu(1,:)) = 1.4080e-052 is it normal? –  Rein Mar 22 '13 at 6:48
Yes, the PDF will be very small when you have many dimensions. You may want to work with the log prob to avoid underflowing. –  Andrew Mao Mar 22 '13 at 6:50

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