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I'm attempting to make a very basic gating system, however the smallest data I have is single cycle which equals a 18*100 array. I've attempted just plotting it with a hold on/off function and collecting the data after with a h=findobj(gca,'Type','line');. However this takes forever and requires a lot of reshaping. Is there a simpler way to either store the data or add the complete arrays (not sum as that does line by line which is a no-no) together in the for loop?

h=findobj(gca,'Type','line'); %data retrieved from orginal figure

hold on
    for i=1:4;
    plot(gx) % manipulated data from orginal figure, 
    plot(gy) % plot required to extract all the for loop data
hold off

Basically I just want to add the four gx together and divide them, however they have to be added as bulk, not line by line as one cycle of the loop equals a cycle of the system. (Also the 4 is just a number it really is more like 60+, which is why I can't just do it manually).

Many thanks!

share|improve this question
If you are looking to sum up the gxs together, why not do this - sum(cell2mat(X),2) and similarly for gys? But then you won't be able to plot individual gx and gy. – Divakar Apr 9 '14 at 5:26
This is really unclear, please could you clarify?. "added as bulk" doesn't make sense to me. You mean you have a bunch of matrices which are 18 x 100 and you want to sum them to equal another 18 x 100 matrix? Why do you need to get your data out of the figure, don't you already have it and if not how are you putting it into the figure in the first place? – nkjt Apr 9 '14 at 9:22
Sum(cell2mat(X),2) doesn't work as it can't be a 1*18 array which it makes. Basically i'm extracting the data from a simulation of a ball bouncing. And comparing the bounce cycle at each bounce. Each bounce cycle is a 18 x 100 matrix, and has too stay that size. The aim is to get the original extracted matrix n x 18 x 100, separate it into 18 x 100 matrices add the 18 x 100 together and then divide by n, getting a 'standard' 18 x 100 bounce. The 18 x 100 is required for my re-plotting of the simulation. – user3513641 Apr 11 '14 at 0:33
This but for a n>50; SX=(cell2mat(X(:,1))+cell2mat(X(:,2))+cell2mat(X(:,3))+cell2mat(X(:,4)))/4 So i'd need a for loop to do it, and thats were I fail – user3513641 Apr 11 '14 at 1:35

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