How the increase the affect of lowpass filter on a field data?

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Cakil
Cakil el 28 de Nov. de 2023
Comentada: Star Strider el 20 de Ag. de 2024
Hello,
I would like to apply lowpass filter to my temperature data to remove the high frequency noise. I have applied simply 'lowpass' and could not see a significant affect on my data. I have seen several question regarding the lowpass but I am quite new to this area, so maybe missed the point.
sampling_rate=10; %seconds
fs=1/sampling_rate; %Hz
fpass=0:0.01:fs/2;
T35_lp=lowpass(T35,0.01,fs);
Here you can see the applied filter and original data below. They are almost same.
Is there any way to improve the affect of lowpass filter? I appreciate any suggestions.
Thanks!

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Star Strider
Star Strider el 28 de Nov. de 2023
Ran in:
The cutoff frequency of the lowpass filter is too high.
Try these —
LD = load('T35.mat');
T35 = LD.T35;
sampling_interval = 10;
Fs = 1/sampling_interval;
L = numel(T35);
t = linspace(0, L-1, L)/Fs;
[FTT35,Fv] = FFT1(T35, t);
figure
semilogx(Fv, abs(FTT35)*2)
grid
xlabel('Frequency')
ylabel('Magnitude')
title('T35: Fourier Transform')
xlim([0 Fs/2])
Fco = 1E-5;
T35_filt1 = lowpass(T35, Fco, Fs, 'ImpulseResponse','iir');
Fco = 8E-7;
T35_filt2 = lowpass(T35, Fco, Fs, 'ImpulseResponse','iir');
figure
plot(t, T35, 'DisplayName','Original (Unfiltered)')
hold on
plot(t, T35_filt1, 'DisplayName','Filtered (F_{co} = 1\times 10^{-5})', 'LineWidth',2)
plot(t, T35_filt2, 'DisplayName','Filtered (F_{co} = 8\times 10^{-7})', 'LineWidth',2)
hold off
grid
legend('Location','best')
function [FTs1,Fv] = FFT1(s,t)
s = s(:);
t = t(:);
L = numel(t);
Fs = 1/mean(diff(t));
Fn = Fs/2;
NFFT = 2^nextpow2(L);
FTs = fft((s - mean(s)).*hann(L), NFFT)/sum(hann(L));
Fv = linspace(0, 1, NFFT/2+1)*Fn;
Iv = 1:numel(Fv);
FTs1 = FTs(Iv);
end
.
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Cakil
Cakil el 30 de Nov. de 2023
Thank you for the brief information about how to approach and where to start to processing data. It might be confusing to decide which method to use, so it is really a valuable feedback for me. Also I will definitely using the FFT1. If I understand correctly, spectrogram is an alternative to Fourier transform to understand the frequency variation of the time series data.
Star Strider
Star Strider el 30 de Nov. de 2023
As always, my pleasure!
Your interpretation of the spectrogram is correct.

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Donya
Donya el 20 de Ag. de 2024
Hello,
I would like to know how the Fco is found?
  1 comentario
Star Strider
Star Strider el 20 de Ag. de 2024
By looking at the Fourier transform of the original signal. (That is the reason I calculate it in every signal processing problem I encounter.)
The findpeaks function (using the negative of the absolute value of the Fourier transform output), or the islocalmin function can help to localise the frequencies of the minimum values. These can be used to find the best value for ‘Fco’. The choice is somewhat empirical, so it is usually necesary to experiment, since it may not be obvious initially what the best value for it is.

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