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view m-toolbox/test/utils/test_2dim_vdfit.m @ 0:f0afece42f48
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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Wed, 23 Nov 2011 19:22:13 +0100 |
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % TEST Fitting procedure in 2dim z-domain VDFIT % At the end you have 4 stable transfer functions in partial fractions % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % HISTORY: 02-10-2008 L Ferraioli % Creation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% VERSION '$Id: test_2dim_vdfit.m,v 1.1 2009/04/23 10:11:26 luigi Exp $'; %% Clear clear all %% Loading spectra load ..\m-toolbox\test\mpsd.mat % load mpsd.mat first column is f then psd1, csd and psd2 f = mpsd(:,1); csd11 = mpsd(:,2); csd12 = mpsd(:,3); csd21 = []; csd22 = mpsd(:,4); fs = 10; %% Eigendecomposition [tf11,tf12,tf21,tf22] = utils.math.eigcsd(csd11,csd12,csd21,csd22,'USESYM',0,'DIG',50,'OTP','TF'); %% Constructing vector f1 = [tf11 tf21]; f2 = [tf12 tf22]; %% VDFIT tic; clear mlr1 mlr2 N = 32; %Order of approximation % Max Iteration Nmaxiter = 40; % mlr1 = zeros(Nmaxiter,1); % mlr2 = zeros(Nmaxiter,1); % Fitting params fitin.stable = 0; fitin.dterm = 0; fitin.plot = 0; fitin.fs = fs; weight = utils.math.wfun(f1,2); % weight = 1./abs(f1); pparams = struct('spolesopt',3, 'type','DISC', 'pamp', 0.98); poles1 = utils.math.startpoles(N,f,pparams); for hh = 1:Nmaxiter [res1,poles1,dterm1,mresp1,rdl1,sqe1] = utils.math.vdfit(f1,f,poles1,weight,fitin); % Fitting disp(['Iter' num2str(hh)]) % Stop condition checking mlr1(hh) = sqe1(:,1); mlr2(hh) = sqe1(:,2); % [ext1,msg1] = utils.math.stopfit(f1(:,1),rdl1(:,1),mlr1,'lrsrmse',2,15); % [ext2,msg2] = utils.math.stopfit(f1(:,2),rdl1(:,2),mlr2,'lrsrmse',2,15); % order = length(poles1); % mlr1(hh) = mean(log10(abs(f1(:,1)))-log10(abs(rdl1(:,1)))); % mlr2(hh) = mean(log10(abs(f1(:,2)))-log10(abs(rdl1(:,2)))); % [ext1,msg1] = utils.math.stopfit(f1(:,1),rdl1(:,1),mlr1,order,'lrs',1,0.0001,2); % [ext2,msg2] = utils.math.stopfit(f1(:,2),rdl1(:,2),mlr2,order,'lrs',1,0.0001,2); % if ext1 && ext2 % disp(msg1) % break % end end elpstime = toc; % plotting squared error figure() semilogy(mlr1,'-ok') hold on grid on semilogy(mlr2,'-or') % % plotting RMS error variation % figure() % semilogy(abs(diff(sqrt(mlr1))),'-ok') % hold on % grid on % semilogy(abs(diff(sqrt(mlr2))),'-or') % plotting squared error variation figure() semilogy(abs(diff(mlr1)./mlr1(1,end-1)),'-ok') hold on grid on semilogy(abs(diff(mlr2)./mlr2(1,end-1)),'-or') %% All Passing % [np1,resp1] = pfallpz(res1,poles1,dterm1,mresp1,f,fs); [nr1,np1,nd1,resp1] = utils.math.pfallpsymz(res1,poles1,dterm1,mresp1,f,fs); figure() subplot(2,1,1); p1 = loglog(f,abs(mresp1),'k'); hold on p2 = loglog(f,abs(resp1),'r'); xlabel('Frequency [Hz]') ylabel('Amplitude') legend([p1(1) p2(1)],'VDFIT','Stabilized') hold off subplot(2,1,2); p4 = semilogx(f,(180/pi).*unwrap(angle(mresp1)),'k'); hold on p5 = semilogx(f,(180/pi).*unwrap(angle(resp1)),'r'); xlabel('Frequency [Hz]') ylabel('Phase [Deg]') legend([p4(1) p5(1)],'VDFIT', 'Stabilized') hold off %% VDFIT clear mlr3 mlr4 ext1 ext2 N = 24; %Order of approximation % Max Iteration Nmaxiter = 70; % Fitting params fitin.stable = 0; fitin.dterm = 0; fitin.plot = 1; fitin.fs = fs; weight = utils.math.wfun(f2,2); pparams = struct('spolesopt',2, 'type','DISC', 'pamp', 0.98); poles2 = utils.math.startpoles(N,f,pparams); for hh = 1:Nmaxiter [res2,poles2,dterm2,mresp2,rdl2,rmse2] = utils.math.vdfit(f2,f,poles2,weight,fitin); % Fitting disp(['Iter' num2str(hh)]) % Stop condition checking mlr3(hh) = rmse2(:,1); mlr4(hh) = rmse2(:,2); [ext1,msg1] = utils.math.stopfit(f2(:,1),rdl2(:,1),mlr3,'lrsrmse',2,15); [ext2,msg2] = utils.math.stopfit(f2(:,2),rdl2(:,2),mlr4,'lrsrmse',2,15); if ext1 && ext2 disp(msg1) break end end % plotting RMS error figure() semilogy(mlr3,'-ok') hold on grid on semilogy(mlr4,'-or') %% % params = struct('spolesopt',2, 'Nmaxiter',250, 'minorder',30,... % 'maxorder',60, 'weightparam',1, 'plot',0,... % 'ctp','lrs','lrscond',1,'lrsvarcond',1,'nrmsecond',2,... % 'stabfit',0,'dterm',0,'spy',0); % % [res2,poles2,dterm2,mresp2,rdl2] = autodfit(f2,f,fs,params);