| function [fv,p,mx,Cx,Cy,b]=CWM(y,x,Nc,iter,optim,Sigmax) |
| |
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| Dy=size(y,1); |
| Nf=size(x,1); |
| Nt=size(x,2); |
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| f1=figure; |
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| Lk=0; |
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| Lopt=10^100; |
| for opt=1:optim |
| p=ones(Nc,1)/Nc; |
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| gx=zeros(Nt,1); |
| h=zeros(Nt,Nc); |
| b=zeros(Dy,Nf+1,Nc); |
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| sigmay=cov(y'); |
| sigmax=cov(x'); |
| max(sigmax(:)) |
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| MAXy=max(y(1,:)); MINy=min(y(1,:)); |
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| mc=linspace(MINy,MAXy,Nc); |
| b(1,1,:)=mc+0*(rand(size(mc))-.5)*(MAXy-MINy)/Nc/2; |
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| |
| |
| k=fix(rand(1,Nc)*Nt)+1; |
| |
| for i=1:Nc |
| mx(:,i)=x(:,k(i)); |
| b(:,1,i)=y(:,k(i)); |
| Cx(:,:,i)=.5*diag(diag(sigmax))/Nc^(1/Nf)+.5*eye(Nf,Nf)*max(sigmax(:))/Nc; |
| Cy(:,:,i)=1*sigmay/Nc; |
| end |
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| |
| ss=0; |
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| |
| for j=1:Nc |
| |
| |
| xmx=x-repmat(mx(:,j),1,Nt); |
| iXa=inv(Cx(:,:,j)); |
| xmX=iXa'*xmx; |
| dxm=sum(xmX.*xmx)'; |
| |
| ym=y-b(:,:,j)*[ones(1,Nt); xmx]; |
| if Dy>1 |
| iXa=inv(Cy(:,:,j)); |
| ymY=ym'*iXa; |
| dym=dot(ymY',ym)'; |
| else |
| dym=ym'.^2/Cy(:,:,j); |
| end |
|
|
| gxy=exp(-0.5*(dym+dxm))/sqrt(det(Cy(:,:,j)))/(2*pi)^(Dy/2)/sqrt(det(Cx(:,:,j)))/(2*pi)^(Nf/2); |
| gx(:,j)=exp(-0.5*(dxm))/sqrt(det(Cx(:,:,j)))/(2*pi)^(Nf/2); |
| |
| h(:,j)=real(p(j)*gxy); |
| ss=ss+h(:,j); |
| end |
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| |
| for k=1:iter |
| |
| disp(k) |
| figure(f1) |
| subplot(121) |
| cla |
| plot(x(1,:),x(2,:),'y.') |
| hold on |
| plot(mx(1,:),mx(2,:),'+') |
| axis('square') |
| axis([min(x(1,:)) max(x(1,:)) min(x(2,:)) max(x(2,:))]) |
| drawnow |
| subplot(122) |
| cla |
| hold on |
| my=b(:,1,:); |
| plot(my(1,:),mx(1,:),'+') |
| axis('square') |
| title('output') |
| axis([min(y(1,:)) max(y(1,:)) min(x(1,:)) max(x(1,:))]) |
| drawnow |
|
|
| for j=1:Nc |
| h(:,j)=h(:,j)./ss; |
| end |
| tic |
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| |
| ss=0; |
| SUMtot=sum(h(:)); |
| shj=sum(h); |
| Cxm=0; |
| for j=1:Nc |
| sh=shj(j); |
| p(j)=sh/SUMtot; |
| Cxm=Cxm+Cx(:,:,j)*p(j); |
| end |
| for j=1:Nc |
| |
| sh=shj(j); |
| p(j)=sh/SUMtot; |
|
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| hDy=repmat(h(:,j)',Dy,1); |
| hNf=repmat(h(:,j)',Nf,1); |
| mx(:,j)=sum(hNf.*x,2)/sh; |
|
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| my=sum(hDy.*y,2)/sh; |
| xmx=x-repmat(mx(:,j),1,Nt); |
| xmxp=xmx'; |
| X=(hNf.*xmx)*xmxp/sh; |
| Cx(:,:,j)=X+Sigmax*eye(Nf,Nf)/Nc^(1/Nf)*mean(diag(sigmax)); |
| iXa=pinv(Cx(:,:,j)); |
| |
| % Calculo de b |
| Bm=zeros(Nf+1,Nf+1); Bm(1,1)=1; |
| Bm(2:Nf+1,2:Nf+1)=iXa; |
| yxm=(hDy.*y)*xmxp/sh; |
| Am=[my yxm]; |
| b(:,:,j)=Am*Bm'; |
|
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| |
| ym=y-b(:,:,j)*[ones(1,Nt); xmx]; |
|
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| if Dy>1 |
| Cy(:,:,j)=(hDy.*ym)*ym'/sh+0.4*diag([10000/1 100/6].^2); |
| else |
| Cy(:,:,j)=(hDy.*ym)*ym'/sh+.1; |
| end |
|
|
| |
| iXa=pinv(Cxm); |
| xmX=iXa'*xmx; |
| dxm=sum(xmX.*xmx); |
| % P(y|x,Cj): |
| if Dy>1 |
| iXa=inv(Cy(:,:,j)); |
| ymY=iXa'*ym; |
| dym=dot(ymY,ym); |
| else |
| dym=ym.*ym/Cy(:,:,j); |
| end |
| |
| |
| |
| |
| |
| h(:,j)=p(j)*(exp(-0.5*dym)/sqrt(det(Cy(:,:,j)))/(2*pi)^(Dy/2)).*exp(-0.5*(dxm))*sqrt(det(iXa))/(2*pi)^(Nf/2); |
| ss=ss+h(:,j); |
| end |
| toc |
|
|
| L=-sum(log(ss)); |
| Lk(k,opt)=L; |
| end |
|
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| p_opt=p; |
| mx_opt=mx; |
| Cx_opt=Cx; |
| Cy_opt=Cy; |
| b_opt=b; |
| Lopt=L; |
| end |
| p=p_opt; |
| mx=mx_opt; |
| Cx=Cx_opt; |
| Cy=Cy_opt; |
| b=b_opt; |
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| fv=Lopt; |
|
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| close |
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|
