How to get a smooth plot by filtering the sudden variation of the data?

Question

Sateesh Kandukuri am 11 Mär. 2023

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https://de.mathworks.com/matlabcentral/answers/1926820-how-to-get-a-smooth-plot-by-filtering-the-sudden-variation-of-the-data

Kommentiert: Sateesh Kandukuri am 11 Mär. 2023

I calculated the numerical derivative of my data as a function of time to get the speed. I got a noisy curve. Then I took the Fourier transform of the velocity data and filtered it to remove the sudden variations and smoothen it. The filtered data is not matching with the unfiltered data. Can anybody help me to solve this issue?

clear;

A = readmatrix('t-v.xlsx');

t = A(:,1);

v = A(:,2);

vfreq=fft(v);

vfreq1=fftshift(vfreq);

vfreq2=vfreq1;

for k=1:485

vfreq2(k)=0;

end

for k=515:size(vfreq1,1)

vfreq2(k)=0;

end

vfreq2=ifftshift(vfreq2);

dvxfilt=ifft(vfreq2);

plot(t/1e-9,dvxfilt);

xlabel('t (ns)')

ylabel('v')

xlim([0 100]);

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Answer 1

Bruno Luong am 11 Mär. 2023

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https://de.mathworks.com/matlabcentral/answers/1926820-how-to-get-a-smooth-plot-by-filtering-the-sudden-variation-of-the-data#answer_1190790

Bearbeitet: Bruno Luong am 11 Mär. 2023

It recovers a big tail part of the signal. Hard to guess what should be the signal at the begining.

A=readmatrix('https://www.mathworks.com/matlabcentral/answers/uploaded_files/1321095/t-v.xlsx');

x=A(:,1);

A=A(:,2);

B=flip(unwrap(flip(A)*10)/10);

plot(x,A,"g")

hold on

plot(x,B,'r','LineWidth',2)

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Bruno Luong am 11 Mär. 2023

Bearbeitet: Bruno Luong am 11 Mär. 2023

IMO your data are too corrupted to hope to recover reliable. You have to take the idea and push to the limit. I don't have time (and desire) to analyse your data.

There are several post about taking derivative, I recommend you to search and take a look in the archive, for example here

https://www.mathworks.com/matlabcentral/answers/1894800-how-to-remove-noise-from-curves-and-take-their-derivates?s_tid=srchtitle

Sateesh Kandukuri am 11 Mär. 2023