<p><b>A</b>, The expected (black) and observed (red) frequencies of neuron groups are plotted for given number of connections. Only groups of 6, 7 and 8 neurons are considered. <b>B</b>, The mean EPSP amplitude in a group of 6 neurons is plotted as a function of the number of connections in the group. Insets show the distributions of the EPSP amplitude in the corresponding groups.</p
<p>The figures on the left hand side column show the typical probabilities of a synapse from a neuro...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p><i>k</i> is the degree, <i>N</i> is the size of the network (the number of neurons; <i>N</i> = 10...
<p><b>A</b>, An example of connectivity matrix for 80 excitatory neurons containing a single cluster...
<p>A: For a synaptically coupled pair of cells (red arrow), presynaptic common neighbors are those c...
<p>Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...
<p>A: Histogram showing EPSP amplitude distribution for N = 100 simulated neurons with 130 primary a...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p>(<b>A</b>) Probability per unit time (spike rate) of a single neuron. Top, in red, experimental d...
<p><b>A</b>, In-degree for connections via apical dendrite. <b>B</b>, In-degree for connections via ...
<p><b>A</b>: Scatter plot of the mean outgoing synaptic weight after synaptic plasticity versus node...
(A) The generated (dots) and theoretical (solid lines) in-degree distributions with different hybrid...
<p>Illustrated here are results for a large IF network ( excitatory and inhibitory neurons) with ra...
<p>Number of synaptic inputs binomially distributed as , with connection probability . <b>A</b> Pop...
<p>The figures on the left hand side column show the typical probabilities of a synapse from a neuro...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p><i>k</i> is the degree, <i>N</i> is the size of the network (the number of neurons; <i>N</i> = 10...
<p><b>A</b>, An example of connectivity matrix for 80 excitatory neurons containing a single cluster...
<p>A: For a synaptically coupled pair of cells (red arrow), presynaptic common neighbors are those c...
<p>Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...
<p>A: Histogram showing EPSP amplitude distribution for N = 100 simulated neurons with 130 primary a...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p>(<b>A</b>) Probability per unit time (spike rate) of a single neuron. Top, in red, experimental d...
<p><b>A</b>, In-degree for connections via apical dendrite. <b>B</b>, In-degree for connections via ...
<p><b>A</b>: Scatter plot of the mean outgoing synaptic weight after synaptic plasticity versus node...
(A) The generated (dots) and theoretical (solid lines) in-degree distributions with different hybrid...
<p>Illustrated here are results for a large IF network ( excitatory and inhibitory neurons) with ra...
<p>Number of synaptic inputs binomially distributed as , with connection probability . <b>A</b> Pop...
<p>The figures on the left hand side column show the typical probabilities of a synapse from a neuro...
<p>There are two populations of neurons, excitatory (green) and inhibitory (red). The inhibitory net...
<p><i>k</i> is the degree, <i>N</i> is the size of the network (the number of neurons; <i>N</i> = 10...