You have described a band-pass filter for the first case, and the inverse would be a band-notch filter.
How to find inverse of filter such that product of filter and its inverse results in a flat spectrum
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Hello All,
Suppose I have a Low pass filter which would generate a frequency spectrum of two peaks at +x and -x KHz.
Now, I have to create an opposite filter which generates dip at those frequencies so that when I pass the signal through these two filters it gives me a nearly flat spectrum.
I would want to know what is the easiest way to generate/implement this filter in MATLAB.
Thanks for your time in advance.
Antworten (2)
Bruno Luong
am 26 Jul. 2022
Bearbeitet: Bruno Luong
am 26 Jul. 2022
If you are working if IIR filter faminy then the answer is trivial yes, since the inverse of the franfert function if a fraction of two polynomials
H(s) = Y(s)/X(s)
is just the
Hi(s) := 1/H(s) = X(s)/Ys(s)
When you apply both filters succesive you'll get the identity. So write in differnce equation recusive form you simply need to swap a and b, the coefficients of the original filter.
The problem is you might get unstable filter. But that is life you cannot do whatever you want.
2 Kommentare
Star Strider
am 26 Jul. 2022
The easiest way to find out is to do the experiment —
Fs = 1E+5;
t = linspace(0, 1E+5, 1E+6)/Fs;
fc = [1 2 4]*1E+4;
s = sum(sin(fc(:)*2*pi*t));
Fn = Fs/2;
L = numel(t);
NFFT = 2^nextpow2(L);
FTs = fft(s,NFFT)/L;
Fv = linspace(0, 1, NFFT/2+1)*Fn;
Iv = 1:numel(Fv);
figure
plot(Fv, abs(FTs(Iv))*2)
grid
xlim([0 5E+3])
xlabel('Frequency')
ylabel('Amplitude')
title('Original Signal Spectrum')
fcomb = [[-9 -5 5 9]+1000, [-9 -5 5 9]+2000, [-9 -5 5 9]+4000]; % Design Multiband FIR Notch Filter
mags = [[1 0 1], [0 1], [0 1]];
dev = [[0.5 0.1 0.5], [0.1 0.5], [0.1 0.5]];
[n,Wn,beta,ftype] = kaiserord(fcomb,mags,dev,Fs);
hh = fir1(n,Wn,ftype,kaiser(n+1,beta),'noscale');
figure
freqz(hh, 1, 2^20, Fs)
set(subplot(2,1,1), 'XLim',[0 5000])
set(subplot(2,1,2), 'XLim',[0 5000])
sgtitle('Filter Bode Plot')
sf = filtfilt(hh,1,s);
figure
subplot(2,1,1)
plot(t,s)
grid
xlim([0 0.0005])
ylim([-2.5 2.5])
ylabel('Amplitude')
title('Original Signal')
subplot(2,1,2)
plot(t,sf)
grid
xlim([0 0.0005])
ylim([-2.5 2.5])
xlabel('Time')
ylabel('Amplitude')
title('Filtered Signal')
Attenuation_dB = 10*log10(sf.^2 / s.^2) % Measure Overall Result
The filter meets the design requirements reasonably well, and produces an acceptable result. This filter uses the default values for a number of otherwise unspecified variables. A more specific design, for example using more options such as provided by designfilt could do even better. (I do not have the DSP System Toolbox, so I am not familiar with its functions. It has other functions and options as well.)
It is likely not possible to completely eliminate the frequencies-of-interest.
.
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