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