# Cross-correlation in matlab without using the inbuilt function?

can someone tell how to do the cross-correlation of two speech signals (each of 40,000 samples) in MATLAB without using the built-in function `xcorr` and the correlation coefficient?

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Like, but also not like, stackoverflow.com/questions/7036628/… –  Alex Sep 13 '11 at 5:45
Thanks Alex for replying. –  jay Sep 13 '11 at 5:54
@jay: if this is homework, please tag as such –  Amro Oct 1 '11 at 1:33
related question: Calculate autocorrelation using FFT in matlab –  Amro Oct 1 '11 at 1:36

You can do cross-correlations using `fft`. The cross-correlation of two vectors is simply the product of their respective Fourier transforms, with one of the transforms conjugated.

### Example:

``````a=rand(5,1);
b=rand(5,1);
corrLength=length(a)+length(b)-1;

c=fftshift(ifft(fft(a,corrLength).*conj(fft(b,corrLength))));
``````

Compare results:

``````c =

0.3311
0.5992
1.1320
1.5853
1.5848
1.1745
0.8500
0.4727
0.0915

>> xcorr(a,b)

ans =

0.3311
0.5992
1.1320
1.5853
1.5848
1.1745
0.8500
0.4727
0.0915
``````
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I cant use any matlab inbuilt functions. Can you suggest me something else? –  jay Sep 13 '11 at 5:30
You should make that clear in your question. You merely disallowed `xcorr` initially. At what point do you consider it ok to use inbuilt functions? Is `2+2` allowed? How about `plus(2,2)`? You should explain why you have these restrictions –  yoda Sep 13 '11 at 5:35
I apologize for being vague. Since I am doing the cross-correlation between two signals each 40,000 samples this creates some delay in the real-time application for processing the entire 40,000 samples So, I am looking for something else like processing block of samples rather than processing all the samples at a time. I trying to do convolution but could't do it. –  jay Sep 13 '11 at 5:41
Well, all you need to do is break up your data into smaller blocks of data and use the above. You don't need a different technique. For large sample sizes, FFT approach will be much faster than `xcorr`. If I do the above with 40,000 samples for both `a` and `b`, on my machine, it takes about 0.7 seconds. And if I simply halve it (i.e., 20,000) samples, it takes merely 0.04 seconds and is near instant at 0.006 seconds for 10,000 samples. –  yoda Sep 13 '11 at 14:15
@jay: if you process the correlation in blocks (e.g. a 2048 sample window), use overlap-add or overlap-save with circular convolution via the FFT. –  eryksun Oct 1 '11 at 10:06
show 2 more comments

If there some good reason why you can't use the inbuilt, you can use a convolution instead. Cross-correlation is simply a convolution without the reversing, so to 'undo' the reversing of the correlation integral you can first apply an additional reverse to one of your signals (which will cancel out in the convolution).

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Well yoda gave a good answer but I thought I mention this anyway just in case. Coming back to the definition of the discrete cross correlation you can compute it without using (too much) builtin Matlab functions (which should be what Matlab do with `xcorr`). Of course there is still room for improvment as I did not try to vectorize this:

``````n=1000;
x1=rand(n,1);
x2=rand(n,1);
xc=zeros(2*n-1,1);
for i=1:2*n-1
if(i>n)
j1=1;
k1=2*n-i;
j2=i-n+1;
k2=n;
else
j1=n-i+1;
k1=n;
j2=1;
k2=i;
end
xc(i)=sum(conj(x1(j1:k1)).*x2(j2:k2));
end
xc=flipud(xc);
``````

Which match the result of the `xcorr` function.

UPDATE: forgot to mention that in my opinion Matlab is not the appropriate tool for doing real time cross correlation of large data sets, I would rather try it in C or other compiled languages.

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