A) List of excitatory and inhibitory connections. B) Scheme of Global and Modular connections. C) Connectivity matrix for the network. The y-axis represent the presynaptic neurons and the x-axis the postsynaptic neurons. The excitatory and inhibitory neurons are grouped together for convenience. (TIF)</p
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>However, these are only given as being representative of typical cortical regions, and in the com...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
<p>A finite line of excitatory and inhibitory neurons. White nodes represent excitatory neurons. Bla...
<p>Excitatory (inhibitory) connections indicated in green (red). is the cortical pyramidal neural p...
(a) A cartoon of the network architecture. A population of presynaptic (layer IV) neurons with vario...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
<p>For networks of two excitatory neurons and three excitatory neurons in (A) and (C), the edge with...
<p>The extrinsic (associational) axons between ROI<sub>1</sub> and ROI<sub>2</sub> originate and end...
<div><p>Excitatory and inhibitory neurons (represented by green and red dots, respectively) are arra...
<p>Input neurons are at the bottom. Similar to the Reynolds and Desimone model <a href="http://www.p...
(A) Network structure emerging after learning 2 training stimuli. The modeled neuronal populations a...
<p>The population of excitatory neurons is subdivided in non-overlapping populations selective to 8 ...
<p>(A) Random positioning of excitatory (red) and inhibitory (blue) neurons in a square, represent...
<p>A. The network architecture included three one-dimensional network layers each containing cortica...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>However, these are only given as being representative of typical cortical regions, and in the com...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...
<p>A finite line of excitatory and inhibitory neurons. White nodes represent excitatory neurons. Bla...
<p>Excitatory (inhibitory) connections indicated in green (red). is the cortical pyramidal neural p...
(a) A cartoon of the network architecture. A population of presynaptic (layer IV) neurons with vario...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
<p>For networks of two excitatory neurons and three excitatory neurons in (A) and (C), the edge with...
<p>The extrinsic (associational) axons between ROI<sub>1</sub> and ROI<sub>2</sub> originate and end...
<div><p>Excitatory and inhibitory neurons (represented by green and red dots, respectively) are arra...
<p>Input neurons are at the bottom. Similar to the Reynolds and Desimone model <a href="http://www.p...
(A) Network structure emerging after learning 2 training stimuli. The modeled neuronal populations a...
<p>The population of excitatory neurons is subdivided in non-overlapping populations selective to 8 ...
<p>(A) Random positioning of excitatory (red) and inhibitory (blue) neurons in a square, represent...
<p>A. The network architecture included three one-dimensional network layers each containing cortica...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p>However, these are only given as being representative of typical cortical regions, and in the com...
(A) Schematic overview of all neuronal populations, external inputs, and main connections. Inhibitor...