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@@ -11,11 +11,11 @@ clear;
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close all;
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%% First LN-Model Component: Filter (spatiotemporal receptive field =STA)
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-loadData='Z:\DataAvailable\spatiotemporalWhiteNoise\'; %path of the BC files for spatiotemporal white noise (has to be adapted to your own path)
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-filename='16d200015Comp.mat'; %BC file to analyse: for example here we use file 155200029Comp from cell 2, recorded in retina 1 on 150520
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-pixelSize=9; %is given in the excel file LogInfo_SpatioTemporalWhiteNoise.xlsx for the corresponding cell
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+loadData='Z:\spatiotemporalWhiteNoise\'; %path of the BC files for spatiotemporal white noise (has to be adapted to your own path)
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+filename='155200029Comp.mat'; %BC file to analyse: for example here we use file 155200029Comp from cell 2, recorded in retina 1 on 150520
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+pixelSize=12; %is given in the excel file LogInfo_SpatioTemporalWhiteNoise.xlsx for the corresponding cell
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seed=-10000; %see also documention_data.pdf
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-Hz=25; % given in the excel file LogInfo_SpatioTemporalWhiteNoise.xlsx for the corresponding cell
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+Hz=10; % given in the excel file LogInfo_SpatioTemporalWhiteNoise.xlsx for the corresponding cell
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[STA_output]=BC_STA(loadData,filename,pixelSize,seed,Hz);%example code receptive field analysis=linear filter
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%% Second LN-Model Component: Output nonlinearity
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