We investigate theoretically the conditions for the emergence of synchronous activity in large networks, consisting of two populations of extensively connected neurons, one excitatory and one inhibitory. The neurons are modeled with quadratic integrate-and-fire dynamics, which provide a very good approximation for the subthreshold behavior of a large class of neurons. In addition to their synaptic recurrent inputs, the neurons receive a tonic external input that varies from neuron to neuron. Because of its relative simplicity, this model can be studied analytically. We investigate the stability of the asynchronous state (AS) of the network with given average firing rates of the two populations. First, we show that the AS can remain stable e...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
. We study some mechanisms responsible for synchronous oscillations and loss of synchrony at physiol...
dynamic of neurons We design and analyze the dynamics of a large network of theta neurons, which are...
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...
Under which conditions can a network of pulse-coupled oscillators sustain stable collective activity...
Random networks of integrate-and-fire neurons with strong current-based synapses can, unlike previou...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
According to many experimental observations, neurons in cerebral cortex tend to operate in an asynch...
The study of balanced networks of excitatory and inhibitory neurons has led to several open question...
We study a model for a network of synaptically coupled, excitable neurons to identify the role of co...
International audienceElectrophysiological recordings in cortex in vivo have revealed a rich variety...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
International audienceSynchronization properties of fully connected networks of identical oscillator...
We analyze a large system of heterogeneous quadratic integrate-and-fire (QIF) neurons with time dela...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
. We study some mechanisms responsible for synchronous oscillations and loss of synchrony at physiol...
dynamic of neurons We design and analyze the dynamics of a large network of theta neurons, which are...
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...
Under which conditions can a network of pulse-coupled oscillators sustain stable collective activity...
Random networks of integrate-and-fire neurons with strong current-based synapses can, unlike previou...
GABAergic interneurons play a major role in the emergence of various types of synchronous oscillator...
According to many experimental observations, neurons in cerebral cortex tend to operate in an asynch...
The study of balanced networks of excitatory and inhibitory neurons has led to several open question...
We study a model for a network of synaptically coupled, excitable neurons to identify the role of co...
International audienceElectrophysiological recordings in cortex in vivo have revealed a rich variety...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
International audienceSynchronization properties of fully connected networks of identical oscillator...
We analyze a large system of heterogeneous quadratic integrate-and-fire (QIF) neurons with time dela...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
. We study some mechanisms responsible for synchronous oscillations and loss of synchrony at physiol...
dynamic of neurons We design and analyze the dynamics of a large network of theta neurons, which are...