# Finding local minima and maxima in a scanned ECG using matlab

I'm trying to process a scanned ECG image using matlab(I'm a complete novice). I'd like to:- 1.find and highlight all local maxima and minima in the ECG 2.compute and display the distance between the successive minima and maxima I'm using a jpeg image from the internet .After converting it to grayscale ,I'm at a loss for what to do .I've tried the functions in
How can I find local maxima in an image in MATLAB? http://www.mathworks.in/matlabcentral/answers/58002-how-to-find-local-maxima-and-minima-of-a-noisy-ecg but the image retains the non-maxima and non-minima points.Will converting Any help in this(or advice on how I could better myself at matlab ) would be much appreciated .

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Could you describe the problem a bit more in detail? In particular, what the problem is when you apply the found solutions? –  Dennis Jaheruddin Feb 6 '13 at 14:57
I'd like to get something like thisbut imregionalmax() and others are not giving me the 3 peaks I need in the image .How do I process the image to get those?Thanks in advance. –  Eridanus Feb 6 '13 at 15:08
@Eridanus include at least a representative input image and what output you expect from it. –  mmgp Feb 6 '13 at 17:38

As you appear to be searching for spikes in the signal I would recommend the following:

Suppose you have a vector called `signal`

``````treshold = std(signal); %Multiply with a constant to get a nice result
peak = signal>mean(signal) + treshold;
dip = signal>mean(signal) - treshold;
``````

This can give you the location of all spikes if the signal is always at roughly the same level, otherwise you need to run this on a part of the signal instead of the full signal.

After you have the locations of the peaks and dips it should not be too hard to analyse them.

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Thanks,Will definitely try. –  Eridanus Feb 6 '13 at 15:39

To get the local minima of an image I :

``````minima=I(1:end-2,2:end-1)>I(2:end-1,2:end-1) && I(3:end,2:end-1)>I(2:end-1,2:end-1) && I(2:end-1,1:end-2)>I(2:end-1,2:end-1) && I(2:end-1,3:end)>I(2:end-1,2:end-1);
``````

Thus you get a matrix with 1 on minima and 0 on none minima( Note that the border are removed)

To get minima list of x and y

``````[x,y]=find(minima);
``````J=I(2:end-1,2:end-1);