# Rolling window for averaging using MATLAB

I have the following code, pasted below. I would like to change it to only average the 10 most recently filtered images and not the entire group of filtered images. The line I think I need to change is: `Yout(k,p,q) = (Yout(k,p,q) + (y.^2))/2;`, but how do I do it?

``````j=1;
K = 1:3600;
window = zeros(1,10);
Yout = zeros(10,column,row);
figure;
y = 0;                           %# Preallocate memory for output
for i = 1:length(K)
disp(i)
str = int2str(i);
str1 = strcat(str,'.mat');
D{i}(:,:) = A(:,:);

%Go through the columns and rows
for p = 1:column
for q = 1:row
if(mean2(D{i}(p,q))==0)
x = 0;
else
if(i == 1)
meanvalue = mean2(D{i}(p,q));
end

%Calculate the temporal mean value based on previous ones.
meanvalue = (meanvalue+D{i}(p,q))/2;
x = double(D{i}(p,q)/meanvalue);
end
%Filtering for 10 bands, based on the previous state
for k = 1:10
[y, ZState{k}] = filter(bCoeff{k},aCoeff{k},x,ZState{k});
Yout(k,p,q) = (Yout(k,p,q)  + (y.^2))/2;
end
end
end
%     for k = 2:10
%         subplot(5,2,k)
%         subimage(Yout(k)*5000, [0 100]);
%         colormap jet
%     end
%     pause(0.01);
end
``````
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The best way to do this (in my opinion) would be to use a circular-buffer to store your images. In a circular-, or ring-buffer, the oldest data element in the array is overwritten by the newest element pushed in to the array. The basics of making such a structure are described in the short Mathworks video Implementing a simple circular buffer.

For each iteration of you main loop that deals with a single image, just load a new image into the circular-buffer and then use MATLAB's built in `mean` function to take the average efficiently.

If you need to apply a window function to the data, then make a temporary copy of the frames multiplied by the window function and take the average of the copy at each iteration of the loop.

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The line

``````Yout(k,p,q) = (Yout(k,p,q)  + (y.^2))/2;
``````

calculates a kind of Moving Average for each of the 10 bands over all your images. This line calculates a moving average of `meanvalue` over your images:

``````meanvalue=(meanvalue+D{i}(p,q))/2;
``````

For both you will want to add a buffer structure that keeps only the last 10 images. To simplify it, you can also just keep all in memory. Here is an example for `Yout`:

Change this line: (Add one dimension)

``````Yout = zeros(3600,10,column,row);
``````

And change this:

``````for q = 1:row

[...]

%filtering for 10 bands, based on the previous state
for k = 1:10
[y, ZState{k}] = filter(bCoeff{k},aCoeff{k},x,ZState{k});
Yout(i,k,p,q) = y.^2;
end

YoutAvg = zeros(10,column,row);
start = max(0, i-10+1);
for avgImg = start:i
YoutAvg(k,p,q) = (YoutAvg(k,p,q) + Yout(avgImg,k,p,q))/2;
end
end
``````

Then to display use

``````subimage(Yout(k)*5000, [0 100]);
``````

You would do sth. similar for `meanvalue`

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