Matlab Audio Filter with changing Frequency

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Hans Buchele 2022 年 11 月 30 日

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https://jp.mathworks.com/matlabcentral/answers/1867768-matlab-audio-filter-with-changing-frequency

コメント済み: Mathieu NOE 2022 年 12 月 9 日

Dear Matlab Community, I am working on project where I need to be able to filter/extract a frequency band which should be „tuneable“ over time. For example: I am interested in the frequency range 220 to 240 for 0.5 seconds, then the range should gradually go up to 320 to 340 in 1 second. Ideal would be a solution similar to an envelope where time and frequency can be inserted. There is modern audio software, where it is possible to draw a selection and then export that as an audio file but I am looking for an automated solution since I need to do that many hundreds time. Any help is much appreciated thanks!

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Mathieu NOE 2022 年 11 月 30 日

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hello Hans and welcome back !

this code is the IIR filtering of a signal with fixed filter coefficients

now we could make the coefficients variable with time , this is my next step for tomorrow..

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% load signal
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% data
[x,Fs] = audioread('test_voice_mono.wav');
[samples,channels] = size(x);
dt = 1/Fs;
time = (0:samples-1)*dt;
%% IIR filter recursive equation 
c1 = 8;
c2 = 2;
c3 = 7;
b0 = 0.05 * c1;
b1 = 0.03 * c2;
b2 = 0.02 * c3;
a1 = 0.5;
a2 = 0.5;
% manual for loop coding IIR filter
y(1) = b0*x(1) + 0 + 0  + 0 + 0; % 1st iteration
y(2) = b0*x(2) + b1*x(1) + 0  + a1*y(1) + 0;  % 2nd iteration
for k = 3:samples % for iteration # 3 and after
    y(k) = b0*x(k) + b1*x(k-1) + b2*x(k-2)  + a1*y(k-1) + a2*y(k-2);
end
figure(1)
plot(time,x,time,y)

Hans Buchele 2022 年 12 月 1 日

Hey Mathieu, thanks! Glad to have you on board!

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Answer 1

Mathieu NOE 2022 年 12 月 1 日

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https://jp.mathworks.com/matlabcentral/answers/1867768-matlab-audio-filter-with-changing-frequency#answer_1117298

MATLAB Online で開く

hello again

so this is a variable coefficient IIR implementation

I used a white noise as test signal, the output signal shows that the spectral content follows the time / frequency characteristics of the bandpass filter.

The for loop could be made faster with a custom made digital filter coefficients computation that will be faster than the call to the built in function butter

Fs = 2000;

x = randn(Fs*3,1); % 3 seconds duration signal (white noise)

[samples,channels] = size(x);

dt = 1/Fs;

time = (0:samples-1)*dt;

%% filter time / frequency characteristics

% 1/ fixed frequency range 220 to 240 for first 0.5 seconds,

stop_sample1 = round(0.5*Fs); % at this iteration value we change to variable IIR (for loop)

flow = 220;

fhigh = 240;

N = 4;

[B,A] = butter(N,2/Fs*[flow fhigh]);

nB = length(B);

nA = length(A);

yy = filter(B,A,x); % init output with fixed characteristics filter

% 2/ frequency ramp up 220 / 240 to 320 to 340 in 1 second.

flow2 = 320;

fhigh2 = 340;

freq_slope_low = (flow2-flow)/Fs /1; % the 1 is for 1 second.

freq_slope_high = (fhigh2-fhigh)/Fs /1; % the 1 is for 1 second.

% IIR filter for loop

y = yy; % init y for samples 1 to stop_sample1

for k = stop_sample1:samples % for iteration >= nB sample

flowk = min(flow2,flow + freq_slope_low*(k-stop_sample1)); % current flow at iteration k

fhighk = min(fhigh2,fhigh + freq_slope_high*(k-stop_sample1)); % current fhigh at iteration k

N = 4;

[B,A] = butter(N,2/Fs*[flowk fhighk]);

% main recursion

y(k) = B*x(k:-1:k-nB+1) - A(2:nA)*y(k-1:-1:k-nA+1);

end

figure(1)

NFFT = 512;

specgram(y,NFFT,Fs,hanning(NFFT),round(0.75*NFFT)) ;

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Hans Buchele 2022 年 12 月 8 日

Thanks Mathieu for your help! It worked but I had problems with soundquality. I ended up with bandpass filters and envelopes which is working great.

Mathieu NOE 2022 年 12 月 9 日

ok

I supposed your hear glitches ? that is something I discovered later .... and finally ended up reading some good publications about the issues regarding time varying filters

vk-Ch3-Pt4-Transients (aalto.fi)

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