# MATLAB: SUM / Average of vectors

I have to calculate the average of "n" VECTORS like that:

``````Gxx_avg = (Gxx1+Gxx2+Gxx3+Gxx4+Gxx5+Gxx6+Gxx7+Gxx8)/8;
``````

The problem is that each time their number is different => n =, 1,2,3,4,....n In the end Gxx_avg must be a VECTOR as well. Thanks!

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This is eseentially the same as your previous question about sum of vectors! Just divide by `n`at the end stackoverflow.com/questions/19618750/… –  Luis Mendo Oct 27 '13 at 16:45
You're right Luis. I tried to use 2 different explanations as the first one seems to be not quite well structured. –  Trenera Oct 27 '13 at 16:47
Just got your answer on the previous page - THANKS!!! –  Trenera Oct 27 '13 at 16:50
You should seriously consider restructuring your code to make one single `Gxx` matrix instead of many vectors. If each vector has a different length then either pad with NaN or you a cell array. Then you can eliminate the need for `eval` and make your code easier to follow, debug and maintain. –  Dan Oct 28 '13 at 8:47

``````Gxx_avg = zeros(size(Gxx1));
for ii = 1:mes-1
eval(['Gxx_avg = Gxx_avg + Gxx' num2str(ii) ';'])
end
``````

Thanks to : Luis Mendo MATLAB: Sum Variable Number of Vectors

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You could make each vector the column of a single matrix and use the `mean` function.

Example:

``````G = [Gxx1 Gxx2 Gxx3];
Gavg = mean(G,2);
``````

This will take the mean across dimension 2, which means each row will become the mean of all values in that row.

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How can I use this, if I don't know the number of Gxx's ? –  Trenera Oct 27 '13 at 16:41
Do you have an example of how you are generating Gxx*? –  Jack Morrison Oct 27 '13 at 16:42
Not, really, as it is quite a big code and I use several loops to get to it. The last part of generating the Gxx's is:_______________eval([Gxx ' = conj(' spinn ').*' spinn ';']) –  Trenera Oct 27 '13 at 16:45
Is it possible that you could put them all into a single matrix by appending new ones as columns in an existing matrix, rather than creating an entirely new vector? –  Jack Morrison Oct 27 '13 at 16:48