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I am trying to calculate the Mahalanobis distance between two vectors a and b. Eventually, I will be using this as a distance measure in statistical algorithms. I am using gsl to implement them. The formula for the mahalanobis distance is sqrt((a-b)'c^-1(a-b)), where c is the covariance matrix. According to this gsl documentation, it takes in two data sets and returns one covariance value. I am not sure how to calculate the covariance matrix using that. Any help is appreciated.


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I think you need to understand the calcuation of a covariance matrix first, second heres a sample code to get you started

for (i = 0; i < A->size1; i++) {
        for (j = i; j < A->size2; j++) {
          a = gsl_matrix_column (A, i);
          b = gsl_matrix_column (A, j);
          double cov = gsl_stats_covariance(, a.vector.stride,, b.vector.stride, a.vector.size);
          gsl_matrix_set (C, i, j, cov);
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Hey thanks for your reply. In this code snippet is A the data matrix? Because in my case, all I have when the function is called are two vectors of the same size. So, I'm still not sure how to get the covariance matrix between two vectors. Because if I call gsl_stats_covariance between a and b all I get is a single value. – shaun Dec 21 '12 at 20:33
yup A is a matrix, and a and b are columns of the matrix A The resulting matrix C is your covariance matrix..... – pyCthon Dec 21 '12 at 20:46
shouldn’t it be A->size2 twice? size1 is the number of rows, and you don’t loop over rows. also i doesn’t change, so why don’t you assign a in the outer loop? – flying sheep Oct 24 '13 at 9:15

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