The Journal of Neuroscience, April 15, 2009, ():
The Structure of Large-Scale Synchronized Firing in Primate Retina
J. Neurosci. Shlens et al.
29: 5022
Supplemental Data
Files in this Data Supplement:
- supplemental material
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Supplementary Figure 1. 10 seconds of recorded spiking activity of 104 ON parasol cells recorded in one retina, in the presence of steady, spatially uniform photopic illlumination. Each oval represents 0.9 SD outline of the Gaussian fit to the receptive field of one retinal ganglion cell. During each 10 ms time bin, if a given cell fires a spike, the oval representing its receptive field is colored, otherwise it is empty. The field of view is 2220 um x 1560 um.
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Supplementary Figure 2. Same as Supplementary Figure 1, but in the presence of a flickering checkerboard stimulus (white noise) with the same mean intensity as the constant stimulus. Individual checkers in the stimulus are smaller than the average spacing between receptive fields (see Methods).
- supplemental material
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Supplementary Figure 3. 10 seconds of simulated spiking activity of the cells in Figure 1, using Monte Carlo simulation of a pairwise-adjacent model fitted to data. Note that successive frames in the simulation are independent, but successive frames in Supplementary Figures 1 and 2 are in general not, because of temporal correlations in neural activity between frames.
- supplemental material
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Supplementary Figure 4. 10 seconds of simulated activity of the cells in Figure 1, using Monte Carlo simulation of statistical independence model fitted to data.
