International audienceElectrophysiological recordings in cortex in vivo have revealed a rich variety of dynamical regimes ranging from irregular asynchronous states to a diversity of synchronized states, depending on species, anesthesia, and external stimulation. The average population firing rate in these states is typically low. We study analytically and numerically a network of sparsely connected excitatory and inhibitory integrate-and-fire neurons in the inhibition-dominated, low firing rate regime. For sufficiently high values of the external input, the network exhibits an asynchronous low firing frequency state (L). Depending on synaptic time constants, we show that two scenarios may occur when external inputs are decreased: (1) the L...
Inhibition is crucial for the stability of network dynamics. In particular, rewiring inhibitory conn...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
International audienceElectrophysiological recordings in cortex in vivo have revealed a rich variety...
We investigate theoretically the conditions for the emergence of synchronous activity in large netwo...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Excessively high, neural synchronization has been associated with epileptic seizures, one of the mos...
The dynamics of networks of sparsely connected excitatory and inhibitory integrateand -re neurons is...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Synchronization of neural oscillations has been hypothesized to play an essential role in the large-...
A neuronal network can be represented as a directed graph. Each neuron corresponds to a node and eac...
Fast oscillations of the population firing rate in the high gamma range (50-200 Hz), where individua...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
Inhibition is crucial for the stability of network dynamics. In particular, rewiring inhibitory conn...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...
International audienceElectrophysiological recordings in cortex in vivo have revealed a rich variety...
We investigate theoretically the conditions for the emergence of synchronous activity in large netwo...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Excessively high, neural synchronization has been associated with epileptic seizures, one of the mos...
The dynamics of networks of sparsely connected excitatory and inhibitory integrateand -re neurons is...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Synchronization of neural oscillations has been hypothesized to play an essential role in the large-...
A neuronal network can be represented as a directed graph. Each neuron corresponds to a node and eac...
Fast oscillations of the population firing rate in the high gamma range (50-200 Hz), where individua...
Traditional analysis of cortical network dynamics has most commonly treated simple random graph stru...
Inhibition is crucial for the stability of network dynamics. In particular, rewiring inhibitory conn...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neural circuits in the brain have distinct and highly conserved ratios of excitatory and inhibitory ...