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Apologies if this is in the wrong forum.

Ok, so I'm trying to compare two different speech signals and I have come into a problem. Here goes:

I have split the signal into blocks, and I have computed the MFCC coefficients of each block. I then use a DTW algorithm to compare the (inputted) signal to the training signal.

EDIT (Would this algorithm work)?

I have updated the algorithm (Written it from the Wikipedia article):

It now handles 2D vectors, instead of 1D.. I think this is where I was going wrong because, hence it was printing out a range of numbers rather than just 1.

If the inputted values for (actual, training) MFCC are exactly the same, then the difference is then "0" there are no differences. I need to check with a training value, but, does this algorithm look right?

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It doesn't seem you understand the algorithm, probably you need to read more about it. As a result of MFCC calculation you should have a two-dimensional array or a sequence of frames. You should use Euclidean distance to calculate distance between frames. You should use DTW to compare sequences of frames. –  Nikolay Shmyrev Feb 5 '13 at 3:35
@NikolayShmyrev Thanks for the reply :) Yes, from computing the MFCC I have a 2D array containing 13 values (for each block).. Do I therefore need to calculate the Euclidean distance and then DTW? I'm confused about this. Thanks –  Phorce Feb 5 '13 at 3:38
In DTW a distance function is used. Such distance function should calculate Euclidean distance between frames. To avoid confusion read about DTW on Wikipedia –  Nikolay Shmyrev Feb 5 '13 at 4:30
@NikolayShmyrev Please see my updated post, I have edited it to show the algorithm.. Does this looks correct, and, is there anything else I need to implement? The algorithm seems to follow the link that you provided.. –  Phorce Feb 5 '13 at 4:45
Every tutorial and paper is correct and you are not. You need to pass two vectors: actual[0], actual[1] and so on. The thing you don't understand is that actual[0] is a vector itself {28.6696, 65.8777, 44.2725, 31.6083, 42.6541, 38.4104, 26.6311, 34.9188, 37.2065, 25.2479, 41.5969, 54.2681, 37.0685, 26.207} So actual is vector of vectors and actual[0] is a vector of 13 coeffcients –  Nikolay Shmyrev Feb 5 '13 at 5:38

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