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I have a signal composed of square pulses (+ some noise), here's a tiny part of it:

enter image description here

I look for an efficient and robust way to count how many pulses I have.

Here's what I've done so far:

The amplitude is a bit noisy but SNR is great do I can threshold:

data = data>1;

the length of each pulse can be noisy so I ignore it and use diff, to obtain the derivatives (+ and -), find how many non-zero elements there are, and divide by 2 (since there are 2 derivative peaks per pulse) .



Is that the best way to do that? I was told not to use diff because it can be too noisy...

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This function can help. – Parag S. Chandakkar Feb 26 '13 at 22:06
But it is slower (by factor >20), and also find false peaks unless I threshold. – user2041376 Feb 26 '13 at 22:21

1 Answer 1

up vote 2 down vote accepted

Based on your description of the data, I think this will work.

numberOfPulses = nnz(diff(data > 1) > 0)

You can reliably find pulse samples using data > 1, then use diff() > 0 find the transitions from no pulse to pulse, and finally nnz() to count them.

share|improve this answer
thanks! while this is on par in performance with what I suggested, you gave ne the idea to use sum instead of nnz, and I got it even faster! – user2041376 Feb 26 '13 at 22:23

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