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@@ -1,39 +0,0 @@
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-load('data_fig_1.db','-mat');
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-figure;
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-
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-%% theta frequency
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-frwin=3;
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-for a=1:2
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- rx=size(data.unwrapped_phase_right{a},1);
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- freq_right{a}=([data.unwrapped_phase_right{a}(:,1+frwin:end) nan(rx,frwin)]-[nan(rx,frwin) data.unwrapped_phase_right{a}(:,1:end-frwin)])/2/pi/0.02/frwin/2;
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- rx=size(data.unwrapped_phase_left{a},1);
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- freq_left{a}=([data.unwrapped_phase_left{a}(:,1+frwin:end) nan(rx,frwin)]-[nan(rx,frwin) data.unwrapped_phase_left{a}(:,1:end-frwin)])/2/pi/0.02/frwin/2;
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-end
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-
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-%% acceleration
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-win=10; %gfr=fr;
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-
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-
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- rx=size(data.x_right,1);
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- acc_right=-([nan(rx,win) data.x_right(:,1:end-win)]+[data.x_right(:,1+win:end) nan(rx,win)]-2*data.x_right)/0.02/0.02/win/win;
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- rx=size(data.x_left,1);
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- acc_left=([nan(rx,win) data.x_left(:,1:end-win)]+[data.x_left(:,1+win:end) nan(rx,win)]-2*data.x_left)/0.02/0.02/win/win;
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-
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-
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- fct=0;
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-th=8; axlim=[-120 220];
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-subplot(2,1,1)
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-
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-gacc=acc_right;
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-gfr=freq_right;
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-do_plots;
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-
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-set(AX(2),'XTick',[]);
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-
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-subplot(2,1,2)
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- gfr=freq_left;
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- gacc=acc_left;
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-
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-do_plots;
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-set(AX(2),'XTick',[]);
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-
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