Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm using MATLAB 2013 which now includes Matching Pursuit algorithm. It has a function called wmpdictionary for creating a dictionary. As far as I know is capable of using the next functions to create atoms in the dictionary:

  • Discrete cosine transform-II basis
  • Sine
  • Cosine
  • Polynomial
  • The shifted Kronecker delta
  • A valid orthogonal or biorthogonal wavelet family

I want/need to use Gabor atoms.

Does someone knows how to use Gabor in wmpdictionary or alternatively a way to customize new kinds of atoms?.

------------------FINALLY SOLVED------------------ Well I found a formula for Gabor atoms in the paper [1]. I generated a dictionary using these functions:

function atom = getGaborAtom(N,scale,timeShift,frequency,phase)
%This function obtains a Gabor atom of given parameters
%N- Length of the signal
%scale- must be in number of samples
%timeShift - must be in number of samples
%frequency - its normalized frequency from 0 to 0.5   f/fs;
%Phase - a value from 0 to 2 pi
%This version uses the number of samples but seconds can also be used.

atom =zeros(N,1);
for n=1:N
    atom(n,1) = (1/sqrt(scale))*exp(-pi*(n-timeShift)^2/scale^2) * cos(2*pi*frequency*    (n-timeShift)+phase);
end
atom = (1/norm(atom)) .* atom;   %Normalization
end

function [dictionary parameters]=constructDictionaryGabor()
%Construct a Gabor dictionary 
%parameters are scale timeshift and frequency

N=256;  %Size of the atom
scales = [2^1 2^2 2^3 2^4];  %More scales can be added
freqs  = [0 .001 .002 .05 .1 .2 .3 .4 .5];  % f/fs normalized frequency. More freqs can be added
timeShifts = [0 64 128];  %More time shifts can be added
phase =0; %More phase values can be added, here I'm fixinf phase to 0


dictionary = zeros(N,length(scales)*length(freqs)*length(timeShifts)*length(phase));
parameters = zeros(3,length(scales)*length(freqs)*length(timeShifts)*length(phase);
contador = 1;

for t=1:length(timeShifts)
    for f=1:length(freqs)
        for s=1:length(scales)
            dictionary(:,contador) = getGaborAtom(N,scales(s),timeShifts(t),freqs(f),phase);
            parameters(:,contador) = [scales(s) timeShifts(t) freqs(f)];
            contador = contador+1;
        end
    end
end
end

This dictionary can be used with the function wmpdictionary, the matrix parameteres has the parameters per each atom.

[1] Environmental Sound Recognition With Time–Frequency Audio Features

share|improve this question

1 Answer 1

You should download and install MPTK, this toolkit has several features and is faster than wmpalg. You can also make multichannel decompositions and define your own dictionaries easily.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.