Neuronal activity in the central nervous system varies strongly in time and across neuronal populations. It is a longstanding proposal that such fluctuations generically arise from chaotic network dynamics. Various theoretical studies predict that the rich dynamics of rate models operating in the chaotic regime can subserve circuit computation and learning. Neurons in the brain, however, communicate via spikes and it is a theoretical challenge to obtain similar rate fluctuations in networks of spiking neuron models. A recent study investigated spiking balanced networks of leaky integrate and fire (LIF) neurons and compared their dynamics to a matched rate network with identical topology, where single unit input-output functions were chosen ...
Neurons communicate with spikes, which are discrete events in time. Functional network models often ...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....
The brain processes sensory information about the outside world in large complex networks of neurons...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
International audienceRecurrent networks of non-linear units display a variety of dynamical regimes ...
The brain exhibits temporally complex patterns of activity with features similar to those of chaotic...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
International audienceThe emergence of synchrony in the activity of large, heterogeneous networks of...
International audienceThe emergence of synchrony in the activity of large, heterogeneous networks of...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
A complex interplay of single-neuron properties and the recurrent network structure shapes the activ...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Neurons communicate with spikes, which are discrete events in time. Functional network models often ...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....
The brain processes sensory information about the outside world in large complex networks of neurons...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
International audienceRecurrent networks of non-linear units display a variety of dynamical regimes ...
The brain exhibits temporally complex patterns of activity with features similar to those of chaotic...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
International audienceThe emergence of synchrony in the activity of large, heterogeneous networks of...
International audienceThe emergence of synchrony in the activity of large, heterogeneous networks of...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
A complex interplay of single-neuron properties and the recurrent network structure shapes the activ...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Neurons communicate with spikes, which are discrete events in time. Functional network models often ...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....
The brain processes sensory information about the outside world in large complex networks of neurons...