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How to find the QRS complex for this ECG signal?

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Susan
Susan el 8 de Dic. de 2022
Comentada: Susan el 13 de Dic. de 2022
Hi all,
Could somebody please tell me how I can find the QRS complexes of this ECG signal? The signal is attached.
Thanks in advance!
  6 comentarios
Susan
Susan el 13 de Dic. de 2022
@William Rose Thank you so much for your response. It's helpful. Appreciate it!
William Rose
William Rose el 13 de Dic. de 2022
@Susan, you're welcome. Good luck with your work.

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William Rose
William Rose el 13 de Dic. de 2022
Perhaps the comments above constitute an answer to your question.
ECGs=load('ECG');
ECG=ECGs.ECG;
L = numel(ECG);
t = linspace(0, L-1, L)/1024;
[pks,locs] = findpeaks(ECG,'MinPeakDistance',2,'MinPeakHeight',max(ECG)*0.6846);
%[pks,locs] = findpeaks(ECG,'MinPeakDistance',2,'MinPeakHeight',.48);
figure
subplot(311), plot(t, ECG, '-r',t(locs), pks, '^r')
xlabel('Time (s)'); grid on
subplot(312), plot(t, ECG, 'r-',t(locs), pks, '^k')
xlim([0 5]); xlabel('Time (s)'); grid on
subplot(313), plot(t, ECG, '.r-',t(locs), pks, '^k')
xlim([4 5]); xlabel('Time (s)'); grid on
The 10 Hz spikes are a bit narrower than the QRS complexes, so it should be possible to identify the QRS complexes based on that, plus the peak height excedigng approximately 0.4. This should allow you to find all of the R waves.
Was the subject paced? The R-R intervals appear to be too even for unpaced beats.
Good luck.
  3 comentarios
William Rose
William Rose el 13 de Dic. de 2022
@Susan, Let's continue the discussion offline. Please send me secure email by clicking the WR circle next to my name, then click on the envelope icon.
Susan
Susan el 13 de Dic. de 2022
@William Rose Sure thing!

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