What error are you encountering?
Are you converting by hand, or are you using MATLAB Coder?
I'm trying to convert Matlab code to C++ or C, but it has some errors. Can someone help me with this?
조회 수: 3 (최근 30일)
이전 댓글 표시
%function [e,w]=lmsBasic(M,x,d);
% Input arguments:
% M = learned filter length, dim 1x1
% x = input signal, dim Nx1
% d = desired signal, dim Nx1
% h = input coefficients (coeff of filter we
% are trying to learn. filter
% that turns d into u)
%
% Output arguments:
% e = estimation error, dim Nx1
% w = final filter coefficients, dim Mx1
mus = [0.01 0.05 0.1 0.5 1 2];% 0.5 1];
for j = 1:length(mus)
for i = 1:100
%%INITIALIZE VALUES%%
% generate input signal
M=128; %buffer size (num filter weights)
%=audioread('Airplane Sound Effect.m4a'); %input signal
x=x/max(x); %sample rate
fs=8000; %number of samples of the input signal
N=length(x); %length of input signal
muOG = mus(j);
% generate known filter coefficients
Pz=(0.5*[0:127]).^2; %linear coefficients
%Pz=randn(128,1); %random coefficients
ylim = max(Pz)*1.20;
ymin = min(Pz)-.2*max(Pz);
% generate filtered input signal == desired signal
d=conv(Pz,x); %input signal filtered by known filter Pz (primary path)
%% LMS FOR MAIN ANC %%
%initalize Wz filter values
Wz=zeros(M,1);
emean=zeros(N,1);
%Make sure that x and d are column vectors
x=x(:);
d=d(:);
%LMS
for n=M:N
xvec=x(n:-1:n-M+1); %input has to be in reverse orxer
%adaptively update mu
mu(n) = muOG;
e(n)=d(n)-Wz'*xvec; %update error
Wz=Wz+mu(n)*xvec*(e(n)); %update filter coefficient
%visualize learned filter in realtime
% plot(Pz)
% hold on
% plot(Wz)
% axis([0 inf ymin ylim])
% title(sprintf('n=%f time=%fs error = %f mu=%f',n-M, (n-M)/fs, e(n), mu(n-M+1)))
% hold off
% legend('Input coefficients','Learned Coefficients')
% drawnow;
end
e=e(:);
emean = (emean(:)+e);
end
emean=(emean)/i;
if sum(isinf(emean))>0
emean(~isinf(emean))=1e3;
eall(j,:)=emean;
elseif max(emean)>1e4
for l = 1:length(emean)
if abs(emean(l)) > 1e3
emean(l)=1e3;
end
end
eall(j,:)=emean;
else
[eall(j,:),q]=(envelope(abs(emean),150,'peaks'));
end
end
figure
for i = 1:length(mus)
plot(10*log10(abs(eall(i,:))))
hold on
end
title('Convergence Time in Cycles')
ylabel('Error (dB)');
xlabel('Cycles');
hleg=legend('0.01','0.05','0.1','0.5','1.0', '2.0');
htitle=get(hleg,'Title');
set(htitle,'String','mu');
pause(17);
soundsc(x,fs);
% %% PLOT RESULTS %%
% figure
% subplot(2,1,1)
% plot(e)
% title('Convergence Time in Cycles')
% ylabel('Amplitude');
% xlabel('Cycles');
% legend('Error');
% subplot(2,1,2)
% stem(Pz)
% hold on
% stem(Wz, 'r*')
% title('Input Coefficients vs Learned Coefficients')
% ylabel('Amplitude');
% xlabel('Numbering of filter tap');
% legend('Input Coefficients', 'learned coefficients')
댓글 수: 5
답변 (1개)
Walter Roberson
2021년 3월 1일
편집: Walter Roberson
2021년 3월 1일
My adjusted version of the code passes compilation, and produces graphs. However I can demonstrate that the algorithm is wrong. And besides that, it produces NaN values.
function lmsBasic()
%
% Input arguments:
% M = learned filter length, dim 1x1
% x = input signal, dim Nx1
% d = desired signal, dim Nx1
% h = input coefficients (coeff of filter we
% are trying to learn. filter
% that turns d into u)
%
% Output arguments:
% e = estimation error, dim Nx1
% w = final filter coefficients, dim Mx1
M=128; %buffer size (num filter weights)
mus = [0.01 0.05 0.1 0.5 1 2];% 0.5 1];
fs=8000; %number of samples of the input signal
Nrand = 20000;
Niter = 100;
Nmus = length(mus);
mu = zeros(Nrand,1);
e = zeros(Nrand,1);
eall = zeros(Nmus, Nrand);
for j = 1:Nmus
emeans = zeros(Nrand, 1);
for i = 1:Niter
%%INITIALIZE VALUES%%
% generate input signal
x=randn(Nrand,1); %input signal
x=x/max(x); %sample rate
muOG = mus(j);
% generate known filter coefficients
Pz=(0.5*(0:127)).^2; %linear coefficients
%Pz=randn(128,1); %random coefficients
ylim = max(Pz)*1.20;
ymin = min(Pz)-.2*max(Pz);
% generate filtered input signal == desired signal
d=conv(Pz,x); %input signal filtered by known filter Pz (primary path)
%% LMS FOR MAIN ANC %%
%initalize Wz filter values
Wz=zeros(M,1);
emean=zeros(Nrand,1);
%Make sure that x and d are column vectors
x=x(:);
d=d(:);
%LMS
for n=M:Nrand
xvec=x(n:-1:n-M+1); %input has to be in reverse orxer
%adaptively update mu
mu(n) = muOG;
e(n)=d(n)-Wz'*xvec; %update error
Wz=Wz+mu(n)*xvec*(e(n)); %update filter coefficient
end
e=e(:);
emeans = emean(:)+e;
end
emeans=(emeans)/Niter;
if sum(isinf(emeans))>0
emeans(~isinf(emeans))=1e3;
eall(j,:)=emeans;
elseif max(emeans)>1e4
for l = 1:length(emeans)
if abs(emeans(l)) > 1e3
emeans(l)=1e3;
end
end
eall(j,:)=emeans;
else
[eall(j,:),q]= envelope(abs(emeans),150,'peaks');
end
end
figure
for i = 1:length(mus)
plot(10*log10(abs(eall(i,:))))
hold on
end
title('Convergence Time in Cycles')
ylabel('Error (dB)');
xlabel('Cycles');
%{
hleg=legend('0.01','0.05','0.1','0.5','1.0', '2.0');
htitle=get(hleg,'Title');
set(htitle,'String','mu');
%}
참고 항목
카테고리
Help Center 및 File Exchange에서 Code Generation and Deployment에 대해 자세히 알아보기
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
또한 다음 목록에서 웹사이트를 선택하실 수도 있습니다.
미주
- América Latina (Español)
- Canada (English)
- United States (English)
유럽
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
아시아 태평양
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)