How to calculate the peak-to-peak amplitude of a waveform?
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Susan el 28 de Ag. de 2022
Sorry if I’m asking about the obvious, but could somebody please tell me how to calculate the peak-to-peak voltage of the following signal? I would like to know what the peak-to-peak amplitude of this signal is, and if I add random noise to it, how much the peak-to-peak amplitude will change. (fig file is attached)
Many thanks in advance.
Star Strider el 28 de Ag. de 2022
Editada: Star Strider el 28 de Ag. de 2022
Fortunately, there are complete P-T complexes in thei record, making the calculations easier.
Detrending is important here in order to get uniform values. This requires a degree polynomial to detrend it adequately, something that to me is a bit extreme, however I could not get any other detrending approach (highpass filtering for example_ to give a satisfactory result. As a general rule, the R-wave is measured from the previous P-R interval, since that is considdered to be an isoelectric reference. This measures the peak-to-peak amplitude between the R-deflection and the following S-deflection, since that is the greatest difference —
LD = openfig(websave('Fig','https://www.mathworks.com/matlabcentral/answers/uploaded_files/1110230/Fig.fig'));
Lines = findobj(LD, 'Type','line');
Xv = Lines.XData
Yv = Lines.YData
Fs = 1/(Xv(2)-Xv(1))
Yvf = detrend(Yv, 9);
Smin = islocalmin(Yvf, 'MinProminence',4000, 'MinSeparation',100);
Rmax = islocalmax(Yvf, 'MinProminence',5500);
Sdef = Yvf(Smin);
PtoP = Rdef - Sdef
plot(Xv, Yvf, 'DisplayName','Filtered EKG')
plot(Xv(Rmax), PtoP,'r+', 'DisplayName','P-P Values')
% plot(Xv(Rmax), Yvf(Rmax),'r^', 'DisplayName','R-Deflections')
% plot(Xv(Smin), Yvf(Smin), 'rv', 'DisplayName','S-Deflections')
Make appropriate changes to get different results.
(Thanks again to @Karim, this time adapting his .mat file load approach to openfig.)