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I want to implement the T=Log( f ( x | client) ) - Log( f ( x | impostor) ) for decision boundary. My features for training and testing are 20*12. I have applied the voicebox matlab tool box. I write the following MATLAB code :

if max(lp_client)- max(lp_impostor) >0.35
   disp('accept');
else
   disp('reject');
end

Should I used mean of Log probability or max of Log probability ?

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1 Answer 1

up vote 2 down vote accepted

You should use sum of lp_client because of the probability nature of the estimate. If you have a sequence of independent events (feature independence is often assumed in this model), it's probability is a product of probabilies of the each event:

P (Seq | X ) = P(feat1 | x) * P(feat2 | X) ...

Or in log domain

logP (Seq | X) = logP (feat1 | x) + logP(feat2 | X)

So actually

logP ( x | client) = sum (lp_client)

and

logP(x | impostor) = sum (lp_impostor)

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Thanks for your respond, If I want to construct the Universal Background Model (UBM) with 1024 mixture, should I train the GMM by all features just in 1 GMM like following code ? 'UBM=[training_features1;...;training_features1024]' '[m_ubm,v_ubm,w_ubm]=gaussmix(UBM,[],No_of_Iterations,No_of_Clusters); ' –  amir nemat Mar 18 '13 at 2:34
    
Yes, you can do that way –  Nikolay Shmyrev Mar 18 '13 at 17:12

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