<p>Firing pattern of the CN neuron in response to same synaptic input sequence with low (A), medium (B) and high values of input gain (C), respectively. D: Coefficient of variation in inter-spike intervals of CN neuron’s spiking in response to synaptic input of varying gains.</p
<p><b>A-B</b>: The inter-spike-interval CVs from simulated spike trains versus the neuron’s in degre...
<p>Two representative neurons embedded in a network are shown with their reciprocal synapses (middle...
<p>(A) Output spike trains for two runs (blue and red) of activity starting with the same initial co...
<p>Neuronal firing pattern observed for various kinds of stimulation pattern.</p
<p>(A&E) Population spike timing histogram of all PNs projecting onto the CN neuron. (B&F) Median la...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
The distribution of intervals between successive spikes in the output of a cerebellar neuron of the ...
<p>A and B, Characteristic neuronal spikes in response to extracellular stimulation at varying frequ...
<p>The number of responsive CN neurons by the different phases of the applied paradigm.</p
The plasticity rules do not fix the firing rate of neurons, instead firing rates vary in response to...
<p>(A) Firing rate of TC (red) and RE (blue) neurons as a function of external driving input impingi...
<p>The neuron id/current (y-axis) vs. time (x-axis) is plotted where stars represent the neuronal fi...
<p>(A) Spike trains of excitatory neurons. (C) Firing rate distribution of excitatory neurons. (B,D)...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p>Each panel of the figure contains a PSTH (top) and a raster plot (bottom) to represent the activi...
<p><b>A-B</b>: The inter-spike-interval CVs from simulated spike trains versus the neuron’s in degre...
<p>Two representative neurons embedded in a network are shown with their reciprocal synapses (middle...
<p>(A) Output spike trains for two runs (blue and red) of activity starting with the same initial co...
<p>Neuronal firing pattern observed for various kinds of stimulation pattern.</p
<p>(A&E) Population spike timing histogram of all PNs projecting onto the CN neuron. (B&F) Median la...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
The distribution of intervals between successive spikes in the output of a cerebellar neuron of the ...
<p>A and B, Characteristic neuronal spikes in response to extracellular stimulation at varying frequ...
<p>The number of responsive CN neurons by the different phases of the applied paradigm.</p
The plasticity rules do not fix the firing rate of neurons, instead firing rates vary in response to...
<p>(A) Firing rate of TC (red) and RE (blue) neurons as a function of external driving input impingi...
<p>The neuron id/current (y-axis) vs. time (x-axis) is plotted where stars represent the neuronal fi...
<p>(A) Spike trains of excitatory neurons. (C) Firing rate distribution of excitatory neurons. (B,D)...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p>Each panel of the figure contains a PSTH (top) and a raster plot (bottom) to represent the activi...
<p><b>A-B</b>: The inter-spike-interval CVs from simulated spike trains versus the neuron’s in degre...
<p>Two representative neurons embedded in a network are shown with their reciprocal synapses (middle...
<p>(A) Output spike trains for two runs (blue and red) of activity starting with the same initial co...
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