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sc_addotherchannelstomua.m
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sc_addotherchannelstomua.m
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function [features,mua]=sc_addotherchannelstomua(features,mua)
% load multiple files and just kepe the spike times to use in a feature
% that counts co-occurrence of spikes across channels
mua.otherchannels=[];
for i=1:numel(features.otherchannelfiles)
clf; hold on
fill([-2 -2 5 5],[-2 2 2 -2],'k','FaceColor',[.95 .95 .95]);
x=linspace(0,2*pi,80);
plot(sin(x).*.4,cos(x).*.4,'k','LineWidth',22,'color',[1 1 1])
text(0,0,['loading extra channel ',num2str(i),'/',num2str(numel(features.otherchannelfiles))]);
xlim([-1.3, 3.3]); ylim([-1.3, 1.2]);
daspect([1 1 1]);set(gca,'XTick',[]); set(gca,'YTick',[]);
drawnow;
[features_tmp,mua_tmp]=sc_loadmuadata(fullfile(features.muafilepath,features.otherchannelfiles{i}),0,[]);
mua.overlapchannels{i}.ts=mua_tmp.ts;
end;
% now compute 'overlap' feature
N_compare=numel( mua.overlapchannels); % how many otther channels are there
use_loop=0; % do loop method, or straight huge histograms?
features.numextrafeaatures=features.numextrafeaatures+1;
features.name{size(features.data,1)+1}=['Ch.overlap'];
if use_loop
% instead do coarse histogram, use it as lookup table to allow fast spike
% by spike comparisons
lookup_binsize = 1; % in ms, smaller -> more ram use, larger -> more cpu time
tbins=[min(mua.ts):lookup_binsize/1000:max(mua.ts)];
[h_this,spikebins]=histc(mua.ts,tbins);
h_others=zeros(numel(tbins), numel(mua.otherchannels) );
for j=1:numel(mua.otherchannels)
[h_others(:,j),otherbins{j}]=histc(mua.otherchannels{j}.ts ,tbins);
end;
% now identify overlap for each spike
lastpercent=0;
Noverlap=zeros(size(mua.ts));
for i=1:numel(mua.ts)
if rem(i,100)==0
percent=round(100*i./length(mua.ts));
if percent>lastpercent
clf; hold on;
fill([-2 -2 5 5],[-2 2 2 -2],'k','FaceColor',[.95 .95 .95]);
x=linspace(0,2*pi*percent./100,100);
plot(sin(x).*.4,cos(x).*.4,'k','LineWidth',22,'color',[.85 .85 .85])
text(0,0,['computing overlap ',num2str(percent),'%']);
xlim([-1.3, 3.3]); ylim([-1.3, 1.2]);
daspect([1 1 1]);set(gca,'XTick',[]); set(gca,'YTick',[]);
drawnow;
end;
lastpercent=percent;
end;
Noverlap(i)=0;
if spikebins(i) >0 % ignore those that are not in histc
if sum(h_others(spikebins(i)))>0 % any?
for j=1:numel(mua.otherchannels) % for all others
if h_others(spikebins(i),j)>0
otherid = find( otherbins{j}==spikebins(i) ); % find other spikes in same bin
% look also in neighboring bins!
otherid = [otherid; find( otherbins{j}==spikebins(i)+1 )];
otherid = [otherid; find( otherbins{j}==spikebins(i)-1 )];
if min(abs( mua.ts(i)- mua.overlapchannels{j}.ts(otherid) )) < .2/1000; % chance timw window here, or even add penalty based on D_t?
Noverlap(i)=Noverlap(i)+1;
end;
end;
end;
end;
end;
end;
else % just use histograms, way faster
tbins=[min(mua.ts):0.1/1000:max(mua.ts)]; % make .1ms +-1 ms bins (this will blow up for big files on small machines)
tbins=max(tbins,1);
Noverlap=zeros(size(mua.ts));
N_used=0; % count how many were actually used
h_this=sparse(zeros(numel(tbins), 1));
[h_this,this_bins]=histc(mua.ts ,tbins);
this_bins=max(1,this_bins); % hack
h_this=conv(h_this,[.5 1 .5],'same'); % avoid edge effects
this_bins=max(this_bins,1);
% h_others=sparse(zeros(numel(tbins), numel(mua.otherchannels) ));
for j=1:numel(mua.otherchannels)
clf; hold on
fill([-2 -2 5 5],[-2 2 2 -2],'k','FaceColor',[.95 .95 .95]);
x=linspace(0,2*pi,80);
plot(sin(x).*.4,cos(x).*.4,'k','LineWidth',22,'color',[1 1 1])
text(0,0,['processing extra channel ',num2str(j),'/',num2str(numel(features.otherchannelfiles))]);
xlim([-1.3, 3.3]); ylim([-1.3, 1.2]);
daspect([1 1 1]);set(gca,'XTick',[]); set(gca,'YTick',[]);
drawnow;
h_other=histc(mua.overlapchannels{j}.ts ,tbins);
if numel(h_other)>0
ovr=(h_this .* h_other);
Noverlap(1:end-1)=Noverlap(1:end-1)+ ovr(this_bins(1:end-1));
N_used=N_used+1;
end;
end;
end;
if N_used > 0
features.data(end+1,:)=((Noverlap+ randn(size(Noverlap)).*.6 )/N_used);
else
features.data(end+1,:)= zeros(size(mua.ts));
disp('no other channels with spikes were found, channel overlap feature is empty');
end;
features=sc_scale_features(features);