Help IFFT can not restore to original signal after filtering

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I tried to compare original signal and signal after high pass filter using ifft. but the result seems odd to me. Can anyone explain why its happened
here is my code
%USING REAL SIGNAL
data_full=load("sig_tremor.txt");
data=data_full(:,2);
srate=100;
t=data_full(:,1);
n=length(t);
figure(1)
subplot(211), plot(t,data), hold on
% HIGH PASS FILTER (SIGNAL*KERNEL)
X=fft(data);
hz=linspace(0,srate,n);
subplot(212), plot(hz,2*abs(X)/n,'-b')
hold on, set(gca,'xlim',[0 10])
% applying high pass filter --> multiplied by kernel
% hz+10 indicate how high freq can be passed
filterkernel = (1./(1+exp(-hz+1)));
XHP=X.*filterkernel;
subplot(211), plot(t,real(ifft(XHP)),'r')
xlabel('Time'), ylabel('Amplitude')
legend('original','HP filter')
subplot(212), plot(hz,2*abs(XHP)/n,'r')
set(gca,'xlim',[0 10],'xtick',[0:2:25])
xlabel('Frequency')
legend('original','HP filter')
hold off

Accepted Answer

Star Strider
Star Strider on 28 Aug 2023
The fftfilt function can do this relatively efficiently, however since you want to do it manually, try this —
%USING REAL SIGNAL
data_full=load("sig_tremor.txt");
data=data_full(:,2);
% srate=100;
t=data_full(:,1);
srate = 1/mean(diff(t));
n=length(t);
figure(1)
subplot(211), plot(t,data), hold on
% HIGH PASS FILTER (SIGNAL*KERNEL)
X=fft(data);
size(X)
ans = 1×2
1600 1
hz=linspace(0,srate,n);
hz2=linspace(0,(n/2)-1,fix(n/2))*2/srate;
subplot(212), plot(hz,2*abs(X(1:numel(hz)))/n,'-b')
hold on, set(gca,'xlim',[0 10])
% applying high pass filter --> multiplied by kernel
% hz+10 indicate how high freq can be passed
filterkernel = (1./(1+exp(-(hz(1:fix(n/2))+1)))).';
figure
plot(filterkernel)
grid
xlim([0 100])
title('Filter passband')
Xs = fftshift(X);
n2 = fix(n/2)
n2 = 800
XHP = [Xs(1:n2).*flip(filterkernel); Xs(n2+1:end).*filterkernel];
XHPs = ifftshift(XHP);
XHPi = ifft(XHPs);
Fs = srate;
Fv = linspace(-Fs/2, Fs/2-Fs/length(X), length(X)); % EVEN 'length(X)' (Asymmetric)
% XHP=X.*filterkernel;
figure
subplot(211), plot(t,real(ifft(XHPs)),'r')
xlabel('Time'), ylabel('Amplitude')
title('original')
subplot(212), plot(hz,2*abs(XHPs)/n,'r')
set(gca,'xlim',[0 10],'xtick',[0:2:25])
xlabel('Frequency')
title('HP filter')
hold off
figure
plot(t-t(1),real(XHPi),'r', 'DisplayName','HP filter')
hold on
plot(t-t(1), data, 'b', 'DisplayName','Original')
hold off
set(gca,'xlim',[0 10],'xtick',[0:2:25])
xlabel('Time')
hold off
legend('Location','best')
It was difficult to figure you what you are doing here, so I had to make some changes.
The filter itself actually does not do much to the signal.
.
  2 Comments
nirwana
nirwana on 28 Aug 2023
Edited: nirwana on 28 Aug 2023
thanks a lot for nice answer. while waiting, i endup find solution of my code, that is I put transpose kernel filter. But still your code explain better.
NB : i just expolore how to write filter manually as part of training from book, i'll try to use filtfilt as u'r suggestion
Star Strider
Star Strider on 28 Aug 2023
My pleasure!
If my Answer helped you solve your problem, please Accept it!
If you want to use filtfilt with the filter you created, first use a vector created from it (such as I created in the second figure here, with an associated frequency vector and the requested filter order) it as inputs to the firls function. That will create a FIR filter that should closely match it.
.

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