<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron in layer <i>j</i> receives synapses from a neuron in layer <i>i</i>.</p><p>e, Excitatory; i, Inhibitory.</p
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>This figure shows (for the rewired ring lattice with and ) histograms of the number of positive ...
<p><b>(A)</b> Initial connectivity matrix of the random network. Each excitatory neuron is connected...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
Entries in the same columns correspond to the same presynaptic neuron type, entries in the same row ...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
<p>This figure shows the relationship between the cortico-cortical excitatory and inhibitory connect...
<p>The figures on the left hand side column show the typical probabilities of a synapse from a neuro...
<div><p>(A) Relative location of labeled neurons in the plane of the section. Positive direction of ...
<p>Excitatory connections are represented with arrows and inhibitory connections with circles. Just ...
<p>Excitatory PY and inhibitory INH neurons are connected randomly with a spatial, Gaussian connecti...
<p>Input neurons are at the bottom. Similar to the Reynolds and Desimone model <a href="http://www.p...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>This figure shows (for the rewired ring lattice with and ) histograms of the number of positive ...
<p><b>(A)</b> Initial connectivity matrix of the random network. Each excitatory neuron is connected...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p>The entry in layers <i>i</i> (row) and <i>j</i> (column) represents the probability that a neuron...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
Entries in the same columns correspond to the same presynaptic neuron type, entries in the same row ...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
<p>This figure shows the relationship between the cortico-cortical excitatory and inhibitory connect...
<p>The figures on the left hand side column show the typical probabilities of a synapse from a neuro...
<div><p>(A) Relative location of labeled neurons in the plane of the section. Positive direction of ...
<p>Excitatory connections are represented with arrows and inhibitory connections with circles. Just ...
<p>Excitatory PY and inhibitory INH neurons are connected randomly with a spatial, Gaussian connecti...
<p>Input neurons are at the bottom. Similar to the Reynolds and Desimone model <a href="http://www.p...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>This figure shows (for the rewired ring lattice with and ) histograms of the number of positive ...
<p><b>(A)</b> Initial connectivity matrix of the random network. Each excitatory neuron is connected...