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author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Mon, 05 Dec 2011 16:20:06 +0100 |
parents | f0afece42f48 |
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% A test script for ao/whiten2D % % L. Ferraioli 18-11-08 % % $Id: test_ao_whiten2D_2.m,v 1.3 2009/08/26 18:27:06 luigi Exp $ % %% clear all %% CSD Noise models and TF [CSD,TF] = get_2D_test_obj_tf_psd(); % get noise coherence coh = CSD(1,2)./sqrt(abs(CSD(1,1).*CSD(2,2))); rcoh = real(coh); rcoh.setName; icoh = imag(coh); icoh.setName; %% Colored Noise generation % Make white noise a1 = ao(plist('tsfcn', 'randn(size(t))', 'fs', 10, 'nsecs', 5e5)); a2 = ao(plist('tsfcn', 'randn(size(t))', 'fs', 10, 'nsecs', 5e5)); % Generation from white noise pl = plist(... 'csd11', CSD(1,1),... 'csd12', CSD(1,2),... 'csd21', CSD(2,1),... 'csd22', CSD(2,2),... 'MaxIter', 70, ... 'PoleType', 2, ... 'MinOrder', 25, ... 'MaxOrder', 35, ... 'Weights', 2, ... 'Plot', false,... 'MSEVARTOL', 1e-2,... 'FITTOL', 1e-4,... 'UseSym', 0,... 'Disp', false); [ac1,ac2] = noisegen2D(a1,a2, pl); ac1.setYunits('m'); ac2.setYunits('m'); %% Checking generated noise acxx1 = ac1.psd(plist('Nfft',1e6)); acxx2 = ac2.psd(plist('Nfft',1e6)); acxy = cohere(ac1,ac2,plist('Nfft',5e4)); racxy = real(acxy); racxy.setName; iacxy = imag(acxy); iacxy.setName; iplot(abs(acxx1),abs(CSD(1,1))) iplot(abs(acxx2),abs(CSD(2,2))) iplot(racxy,rcoh,plist('Yscales',{'All','lin'})) iplot(iacxy,icoh,plist('Yscales',{'All','lin'})) %% iplot(abs(acxx1),abs(acxx2)) %% Get Coloring filters cf11 = ac1.procinfo.find('Filt11'); cf12 = ac1.procinfo.find('Filt12'); cf21 = ac2.procinfo.find('FILT21'); cf22 = ac2.procinfo.find('FILT22'); %% Get Theoretical CSD from coloring filters rc11 = resp(cf11,plist('f',CSD(1,1).x,'bank','parallel')); rc12 = resp(cf12,plist('f',CSD(1,1).x,'bank','parallel')); rc21 = resp(cf21,plist('f',CSD(1,1).x,'bank','parallel')); rc22 = resp(cf22,plist('f',CSD(1,1).x,'bank','parallel')); psd11 = rc11.*conj(rc11)+rc12.*conj(rc12); psd22 = rc21.*conj(rc21)+rc22.*conj(rc22); psd12 = rc11.*conj(rc21)+rc12.*conj(rc22); psd21 = conj(psd12); coher = psd12./sqrt(abs(psd11).*abs(psd22)); rcoher = real(coher); rcoher.setName; icoher = imag(coher); icoher.setName; % compare with data iplot(racxy,rcoher,plist('Yscales',{'All','lin'})) iplot(iacxy,icoher,plist('Yscales',{'All','lin'})) %% Noise whitening pl = plist(... 'csd11', CSD(1,1),... 'csd12', CSD(1,2),... 'csd21', CSD(2,1),... 'csd22', CSD(2,2),... 'MaxIter', 75, ... 'PoleType', 3, ... 'MinOrder', 25, ... 'MaxOrder', 40, ... 'Weights', 2, ... 'Plot', false,... 'MSEVARTOL', 1e-2,... 'FITTOL', 1e-3,... 'UseSym', 0,... 'Disp', false); [aw1,aw2] = whiten2D(ac1,ac2, pl); aw1.setYunits('m'); aw2.setYunits('m'); %% Checking whitened noise awxx1 = aw1.psd(plist('Nfft',1e6)); awxx2 = aw2.psd(plist('Nfft',1e6)); %% iplot(awxx1,awxx2) %% Get coherence awxy = cohere(aw1,aw2,plist('Nfft',6e4)); rawxy = real(awxy); rawxy.setName; iawxy = imag(awxy); iawxy.setName; %% Check whitened data coherence racxy.setName('a_xy'); iacxy.setName('a_xy'); rawxy.setName('wa_xy'); iawxy.setName('wa_xy'); iplot(racxy.split(plist('split_type','frequencies','frequencies',[4e-4 5])),rcoh.split(plist('split_type','frequencies','frequencies',[1e-4 5])),rawxy.split(plist('split_type','frequencies','frequencies',[4e-4 5])),plist('Yscales',{'All','lin'},'Ylabels',{'All','Re(coh)'})) iplot(iacxy.split(plist('split_type','frequencies','frequencies',[4e-4 5])),icoh.split(plist('split_type','frequencies','frequencies',[1e-4 5])),iawxy.split(plist('split_type','frequencies','frequencies',[4e-4 5])),plist('Yscales',{'All','lin'},'Ylabels',{'All','Im(coh)'})) %% Get whitening filters wf11 = aw1.procinfo.find('Filt11'); wf12 = aw1.procinfo.find('Filt12'); wf21 = aw2.procinfo.find('FILT21'); wf22 = aw2.procinfo.find('FILT22'); % filters respose rw11 = resp(wf11,plist('f',CSD(1,1).x,'bank','parallel')); rw12 = resp(wf12,plist('f',CSD(1,1).x,'bank','parallel')); rw21 = resp(wf21,plist('f',CSD(1,1).x,'bank','parallel')); rw22 = resp(wf22,plist('f',CSD(1,1).x,'bank','parallel')); %% Build expected csd and coherence of whitened data wp11 = conj(rw11).*psd11+psd12.*conj(rw12); wp12 = psd11.*conj(rw21)+psd12.*conj(rw22); wp21 = psd21.*conj(rw11)+psd22.*conj(rw12); wp22 = psd21.*conj(rw21)+psd22.*conj(rw22); u11 = rw11.*wp11+rw12.*wp21; u11.setName; u12 = rw11.*wp12+rw12.*wp22; u12.setName; u21 = rw21.*wp11+rw22.*wp21; u21.setName; u22 = rw21.*wp12+rw22.*wp22; u22.setName; wcoher = u12./sqrt(abs(u11).*abs(u22)); rwcoher = real(wcoher); rwcoher.setName; iwcoher = imag(wcoher); iwcoher.setName; % compare with data iplot(rawxy,rwcoher,plist('Yscales',{'All','lin'})) iplot(iawxy,iwcoher,plist('Yscales',{'All','lin'})) %% Coherence of starting data axy = cohere(a1,a2,plist('Nfft',1e4)); raxy = real(axy); raxy.setName; iaxy = imag(axy); iaxy.setName; % compare with whitened iplot(rawxy,raxy,plist('Yscales',{'All','lin'})) iplot(iawxy,iaxy,plist('Yscales',{'All','lin'})) %% Comparing Theoretical data iplot(rcoher,rwcoher,plist('Yscales',{'All','lin'})) iplot(icoher,iwcoher,plist('Yscales',{'All','lin'})) iplot(rcoh,rwcoher,plist('Yscales',{'All','lin'})) iplot(icoh,iwcoher,plist('Yscales',{'All','lin'})) % END