System response from input and output signals

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suniya vs
suniya vs le 21 Août 2023
Modifié(e) : Star Strider le 25 Août 2023
My input is chirp signal .How could i get the frequency response of the sysytem from the output . Using this i want to create a database

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Star Strider
Star Strider le 21 Août 2023
First, use the System Identification Toolbox (iddata then ssest and compare then lsim) or the Signal Processing Toolbox (invfreqz then filtfilt) to estimate the system and use your chirp function as the input for the simulation.
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suniya vs
suniya vs le 25 Août 2023
Sir ,There is some harmonics in the system output but it isnit in the simulated output. i want a system that gives similar output.
Star Strider
Star Strider le 25 Août 2023
Modifié(e) : Star Strider le 25 Août 2023
Ran in:
The harmonics are probably there. You will need to increase the system order beyond 32 to get an accurate representation, although modeling all of them may not be possible. (It turns out that tfest models this system better than ssest, so use tfest instead.)
EDIT — (25 Aug 2023 at 14:37)
Another approach (signal processing) is to use the firls function to approximate the transfer function —
Uz1 = unzip('AliELENvarFsin...b500_8_23.zip')
Uz1 = 1×1 cell array
{'AliELENvarFsin_1K261104b500_8_23.wav'}
Uz2 = unzip('varFsin_1K.zip')
Uz2 = 1×1 cell array
{'varFsin_1K.wav'}
[inpSig,fs]=audioread(Uz2{1});
size_inp = size(inpSig)
size_inp = 1×2
20001 1
fs
fs = 2000
[outSig, Fs] = audioread(Uz1{:});
size_out = size(outSig)
size_out = 1×2
20001 1
Fs
Fs = 2000
L = numel(inpSig);
t = linspace(0, L-1, L)/fs;
[FTs1,Fv] = FFT1(inpSig,t);
[FTs2,Fv] = FFT1(outSig,t);
transfcn = FTs2 ./ FTs1;
figure
plot(Fv, mag2db(abs(transfcn)))
grid
xlabel('Frequency (Hz)')
ylabel('Magnitude (dB)')
title('Transfer Function')
n = 350;
f = Fv(1:end-1);
a = abs(transfcn(1:end-1));
b = firls(n, f/max(f), a);
[hz,fz] = freqz(b, 1, 2^16, Fs);
figure
semilogy(f, a, 'DisplayName','Transfer Function')
hold on
plot(fz, abs(hz), 'DisplayName',["FIR Filter (Order "+string(n)+")"])
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
Use filtfilt to implement the filter.
.

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