<p>A. Information rates (bits s<sup>−1</sup>) of the spiking neuron model evoked by white noise current stimuli with different means and standard deviations. B. Information rates (bits s<sup>−1</sup>) of the graded neuron model evoked by the same white noise current stimuli as in A.</p
Kretzberg J, Warzecha A-K, Egelhaaf M. Neural coding with graded membrane potential changes and spik...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
<p><b>(A)</b> For small differences in state (<b>A1</b>: -62mV vs. -65mV) both adaptive (red) and fi...
<p>A. Firing rates (spikes s<sup>−1</sup>) of the spiking neuron model evoked by white noise current...
<p>A. Action potentials (top black trace) evoked by white noise current stimuli (bottom red trace). ...
<p>A. The firing rates of the spiking neuron model (stochastic voltage-gated Na<sup>+</sup> and K<su...
<p><b>A</b>. Noise fluctuations (black) superimposed on a short ramping input stimulus (red) with ri...
<p>Two types of encoding (left) were investigated on the input side, either a classical rate encodin...
How the firing rate of a neuron carries information depends on the time over which rates are measure...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
<div><p>Information is encoded in neural circuits using both graded and action potentials, convertin...
The mutual information between stimulus and spike-train response is commonly used to monito...
<p>A. White noise current (blue) elicits a train of action potentials in the spiking neuron model (b...
As its fundamental function, the brain processes and transmits information using populations of inte...
Neurons process information by translating continuous signals into patterns of discrete spike times....
Kretzberg J, Warzecha A-K, Egelhaaf M. Neural coding with graded membrane potential changes and spik...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
<p><b>(A)</b> For small differences in state (<b>A1</b>: -62mV vs. -65mV) both adaptive (red) and fi...
<p>A. Firing rates (spikes s<sup>−1</sup>) of the spiking neuron model evoked by white noise current...
<p>A. Action potentials (top black trace) evoked by white noise current stimuli (bottom red trace). ...
<p>A. The firing rates of the spiking neuron model (stochastic voltage-gated Na<sup>+</sup> and K<su...
<p><b>A</b>. Noise fluctuations (black) superimposed on a short ramping input stimulus (red) with ri...
<p>Two types of encoding (left) were investigated on the input side, either a classical rate encodin...
How the firing rate of a neuron carries information depends on the time over which rates are measure...
The mutual information between stimulus and spike-train response is commonly used to monitor neural ...
<div><p>Information is encoded in neural circuits using both graded and action potentials, convertin...
The mutual information between stimulus and spike-train response is commonly used to monito...
<p>A. White noise current (blue) elicits a train of action potentials in the spiking neuron model (b...
As its fundamental function, the brain processes and transmits information using populations of inte...
Neurons process information by translating continuous signals into patterns of discrete spike times....
Kretzberg J, Warzecha A-K, Egelhaaf M. Neural coding with graded membrane potential changes and spik...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
<p><b>(A)</b> For small differences in state (<b>A1</b>: -62mV vs. -65mV) both adaptive (red) and fi...
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