Tuner Upper Removal Demonstration: Difference between revisions
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% Demonstration of LMS algorithm for noise cancellation. Tuner upper problem. |
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% Rich Kozick, Spring 1997 |
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% Rob Frohne's modifications for Macintosh 2000 |
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% Desired signal |
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% and Linux 2006 or so. |
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Totaltime=1; |
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speak('Hit a key and speak the signal.'); |
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pause; |
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Fs=8000; % 8 Khz sampling for Linux. |
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[st, Fs] = recordsound(Totaltime, 22050, 1); |
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T0 = 2; % 2 seconds |
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system("espeak 'After hitting enter in the command window, speak the signal.'"); |
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% Interference + random noise |
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st = record(T0,Fs); |
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speak('Hit a key and make the noise!'); |
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%st=wavread('Hello.wav'); |
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pause; |
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st=st(:,1); |
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[nt,Fs] = recordsound(Totaltime, 22050, 1); |
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%Sign = 0.01; |
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%Dn=20; % Delay of the noise that appears in y. |
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%n = n(1:Ls) + Sign*randn(Ls,1); |
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%an = [0 .01 -.5 1 -.5 .1 .01 0]; |
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T0=length(st)/Fs; |
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an = 4*[0 0 0 0 0 0 0 0 0 0 0 0 0 0 .5 1 .5]; |
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% Make the tuner upper noise or even several at the same time. |
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bn = [1]; |
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t=0:1/Fs:T0-1/Fs; |
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n = 10*(sin(2*pi*100*pi*t) + cos(2*pi*600*t) + 1.5*sin(2*pi*850*t)); |
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%bode(sys); |
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%figure(1); |
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% Add him or them to the desired signal. |
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nf = filter(an,bn,n); |
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%nf = [nf(Dn:(Ls)); zeros(Dn-1,1)] + Sign*randn(Ls,1); |
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y = s + nf; |
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Sigx = 0.01; |
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soundsc(x,Fs); |
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bx = [1]; % bx and ax are filtering on n to produce x |
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ax = [1]; |
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N = 64; % Length of adaptive filter |
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x = filter(bx, ax, n);%x = [x(Dx:(Ls)); zeros(Dx-1,1)] + Sigx*randn(Ls,1); |
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%x = n + Sigx*randn(Ls,1); |
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h = ones(N,1); |
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N = 20; % Length of adaptive filter |
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xk = x(k:-1:(k-N+1)); |
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mu = 1/(10*N*var(x)); |
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e(k) = y(k); |
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xk = x(k:-1:(k-N+1)); |
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e(k) = - y(k) + nhat(k); |
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system("espeak 'Here is a scaled version of the tail of the cleaned signal.'"); |
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skip =1000; |
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soundsc(e(skip:length(e)),Fs); |
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</nowiki> |
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Latest revision as of 13:43, 6 December 2015
% Demonstration of LMS algorithm for noise cancellation. Tuner upper problem. % Rich Kozick, Spring 1997 % Rob Frohne's modifications for Macintosh 2000 % and Linux 2006 or so. clear all Fs=8000; % 8 Khz sampling for Linux. T0 = 2; % 2 seconds system("espeak 'After hitting enter in the command window, speak the signal.'"); st = record(T0,Fs); %st=wavread('Hello.wav'); st=st(:,1); system("espeak 'Here is the signal.'") soundsc(st); Ls = length(st); T0=length(st)/Fs; % Make the tuner upper noise or even several at the same time. t=0:1/Fs:T0-1/Fs; n = 10*(sin(2*pi*100*pi*t) + cos(2*pi*600*t) + 1.5*sin(2*pi*850*t)); % Add him or them to the desired signal. x = st' + n; system("espeak 'Here is the noisy signal.'") soundsc(x,Fs); N = 64; % Length of adaptive filter % LMS algorithm for adaptive noise cancellation h = ones(N,1); mu = 0.1; for k=N:Ls xk = x(k:-1:(k-N+1)); y(k) = h'*xk'; e(k) = y(k); h = h - 2*mu*e(k)*xk'/(xk*xk'); end % The signal estimate is in the vector e system("espeak 'Here is a scaled version of the tail of the cleaned signal.'"); skip =1000; soundsc(e(skip:length(e)),Fs);