<p>A: Response of a recurrent network with two types of i-cells: half of the i-cells show HSE while the other half does not show HSE at the depicted time scale. All cells are perturbed by a 1.2 kHz step increase in the external drive (top trace). Top panel shows the population mean of the instantaneous firing rates of the e-cells (black), the adapting i-cells (red), and the non-adapting i-cells (magenta), computed for 1 second bins. Bottom panel shows the population mean of the three populations. The adaptation time scale ratio of the (adapting) i-cells to the e-cells is 0.5. The compound external drive to all cells before the input increase is 1.2 kHz. B: Ratio of adaptation time scales that is required for adaptation dynamics to be sta...
<p>(A,C) Rastergram and average discharge rate of PCs and BCs versus time when inhibition from MCs i...
<p>Left panel: For the first five environments the neurogenesis algorithm reduces the recoding error...
<p><b>A</b>. Firing rate in the “leaves” natural movie (M1) plotted against firing rate in the “wate...
<p>Response of a non-adapting network and a network with HSE to a range of external excitatory input...
<p>Response of the recurrent network when up to 40% of the inhibitory cells are removed. A: Median f...
<p>A: Response of the excitatory population to a 100% increase of the external drive to both e-cells...
<p>Response of the recurrent network when varying the normalized strength of the recurrent excitator...
<p>A: Schematic of the network model with e-cells (white circles) and i-cells (red circles) receivin...
<p><b>A</b> Schematic of manipulation in which additional constant current drive was added to a subp...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
<p>Oscillatory population spike rate and mean adaptation current of 50,000 excitatory coupled aEIF n...
<p>A: Scheme of the structure of the network model. The excitatory () and the inhibitory population ...
A. Output vs contrast for the On (top) and Off (bottom) pathways of an On-Off amacrine cell, compare...
<p><b>(A-C)</b> Evolution of firing rates in a recurrent network for each input group under diffusiv...
<p><i>(A)</i> Fraction of parameter sets resulting from 10,000 algorithm iterations that generated h...
<p>(A,C) Rastergram and average discharge rate of PCs and BCs versus time when inhibition from MCs i...
<p>Left panel: For the first five environments the neurogenesis algorithm reduces the recoding error...
<p><b>A</b>. Firing rate in the “leaves” natural movie (M1) plotted against firing rate in the “wate...
<p>Response of a non-adapting network and a network with HSE to a range of external excitatory input...
<p>Response of the recurrent network when up to 40% of the inhibitory cells are removed. A: Median f...
<p>A: Response of the excitatory population to a 100% increase of the external drive to both e-cells...
<p>Response of the recurrent network when varying the normalized strength of the recurrent excitator...
<p>A: Schematic of the network model with e-cells (white circles) and i-cells (red circles) receivin...
<p><b>A</b> Schematic of manipulation in which additional constant current drive was added to a subp...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
<p>Oscillatory population spike rate and mean adaptation current of 50,000 excitatory coupled aEIF n...
<p>A: Scheme of the structure of the network model. The excitatory () and the inhibitory population ...
A. Output vs contrast for the On (top) and Off (bottom) pathways of an On-Off amacrine cell, compare...
<p><b>(A-C)</b> Evolution of firing rates in a recurrent network for each input group under diffusiv...
<p><i>(A)</i> Fraction of parameter sets resulting from 10,000 algorithm iterations that generated h...
<p>(A,C) Rastergram and average discharge rate of PCs and BCs versus time when inhibition from MCs i...
<p>Left panel: For the first five environments the neurogenesis algorithm reduces the recoding error...
<p><b>A</b>. Firing rate in the “leaves” natural movie (M1) plotted against firing rate in the “wate...