Airplane Noise Removal Demonstration
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% Demonstration of LMS algorithm for noise cancellation. % Rich Kozick, Spring 1997 % Rob Frohne's modifications for Aircraft Noise Cancellation. % modifications for Macintosh 2000. (commented out here) % Rob Frohne's modifications for Linux. % Aircraft noise cancellation simulation. % Desired signal clear all Totaltime=3; system("aoss espeak 'Hit a key and speak the signal.'"); Fs=8000; %sample rate. st=record(Totaltime,Fs); s = st'; Ls = length(s); % Interference + random noise system("aoss espeak 'Hit a key and make the noise!'"); %pause(); nt = record(Totaltime, Fs); n = nt'; %Sign = 0.01; %Dn=20; % Delay of the noise that appears in y. %n = n(1:Ls) + Sign*randn(Ls,1); %an = [0 .01 -.5 1 -.5 .1 .01 0]; %bn = 4*[0 0 0 0 0 0 0 0 0 0 0 0 0 0 .5 1 .5]; bn=rand(1,20); an = [1]; %sys = tf(an,bn,1/Fs); %bode(sys); %figure(1); nf = filter(bn,an,n); %nf = [nf(Dn:(Ls)); zeros(Dn-1,1)] + Sign*randn(Ls,1); y = s + nf; %Sigx = 0.01; %ax = [1]; % bx and ax are filtering on n to produce x %bx = [0 0 0 .1 1 .1]; %Dx = 1; % Delay of n that appears in x %x = filter(bx, ax, n);%x = [x(Dx:(Ls)); zeros(Dx-1,1)] + Sigx*randn(Ls,1); %x = x + Sigx*randn(1,Ls); system("aoss espeak 'Here is the noisy signal.'"); soundsc(y,Fs); N = 20; % Length of adaptive filter % LMS algorithm for adaptive noise cancellation h = zeros(N,1); %mu = 1/(10*N*var(n)); mu = .05; for k=N:Ls xk = n(k:-1:(k-N+1)); nhat(k) = h'*xk'; e(k) = - y(k) + nhat(k); h = h - mu*e(k)*xk'/(xk*xk'); % For the previous line. end % The signal estimate is in the vector e %speak('Here is the cleaned signal.'); system("aoss espeak 'Here is the cleaned signal.'"); soundsc(e(1,6000:end),Fs); %playaudio(e); (For Linux without octave-forge.)