<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><b>A</b> Two neural populations with rates <i>r</i><sub>1</sub>, <i>r</i><sub>2</sub> inhibit eac...
<div><p>(A) Null hypothesis is generated by assuming independent probabilities of connection.</p> ...
<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...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
Entries in the same columns correspond to the same presynaptic neuron type, entries in the same row ...
<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...
<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>Excitatory connections are represented with arrows and inhibitory connections with circles. Just ...
<div><p>(A) Relative location of labeled neurons in the plane of the section. Positive direction of ...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p><b>A</b> Two neural populations with rates <i>r</i><sub>1</sub>, <i>r</i><sub>2</sub> inhibit eac...
<div><p>(A) Null hypothesis is generated by assuming independent probabilities of connection.</p> ...
<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...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
Entries in the same columns correspond to the same presynaptic neuron type, entries in the same row ...
<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...
<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>Excitatory connections are represented with arrows and inhibitory connections with circles. Just ...
<div><p>(A) Relative location of labeled neurons in the plane of the section. Positive direction of ...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p><b>A</b> Two neural populations with rates <i>r</i><sub>1</sub>, <i>r</i><sub>2</sub> inhibit eac...
<div><p>(A) Null hypothesis is generated by assuming independent probabilities of connection.</p> ...