Large sparse circuits of spiking neurons exhibit a balanced state of highly irregular activity under a wide range of conditions. It occurs likewise in sparsely connected random networks that receive excitatory external inputs and recurrent inhibition as well as in networks with mixed recurrent inhibition and excitation. Here we analytically investigate this irregular dynamics in finite networks keeping track of all individual spike times and the identities of individual neurons. For delayed, purely inhibitory interactions we show that the irregular dynamics is not chaotic but in fact stable. Moreover, we demonstrate that after long transients the dynamics converges towards periodic orbits and that every generic periodic orbit of these dynam...
Cortical neuron spiking activity is broadly classified as temporally irregular and asynchronous. Mod...
The brain exhibits temporally complex patterns of activity with features similar to those of chaotic...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....
Large sparse circuits of spiking neurons exhibit a balanced state of highly irregular activity under...
Large sparse circuits of spiking neurons exhibit a balanced state of highly irregular activity under...
The brain processes sensory information about the outside world in large complex networks of neurons...
The irregular activity of neurons in the cortex [1] is thought to arise from strong input fluctuatio...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
Is a periodic orbit underlying a periodic pattern of spikes in a heterogeneous neural network stable...
International audienceWe revisit the dynamics of a prototypical model of balanced activity in networ...
International audienceRecurrent networks of non-linear units display a variety of dynamical regimes ...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
The study of balanced networks of excitatory and inhibitory neurons has led to several open question...
Random networks of integrate-and-fire neurons with strong current-based synapses can, unlike previou...
Cortical neuron spiking activity is broadly classified as temporally irregular and asynchronous. Mod...
The brain exhibits temporally complex patterns of activity with features similar to those of chaotic...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....
Large sparse circuits of spiking neurons exhibit a balanced state of highly irregular activity under...
Large sparse circuits of spiking neurons exhibit a balanced state of highly irregular activity under...
The brain processes sensory information about the outside world in large complex networks of neurons...
The irregular activity of neurons in the cortex [1] is thought to arise from strong input fluctuatio...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
Dynamic excitatory-inhibitory (E-I) balance is a paradigmatic mechanism invoked to explain the irreg...
Is a periodic orbit underlying a periodic pattern of spikes in a heterogeneous neural network stable...
International audienceWe revisit the dynamics of a prototypical model of balanced activity in networ...
International audienceRecurrent networks of non-linear units display a variety of dynamical regimes ...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
The study of balanced networks of excitatory and inhibitory neurons has led to several open question...
Random networks of integrate-and-fire neurons with strong current-based synapses can, unlike previou...
Cortical neuron spiking activity is broadly classified as temporally irregular and asynchronous. Mod...
The brain exhibits temporally complex patterns of activity with features similar to those of chaotic...
We revisit the dynamics of a prototypical model of balanced activity in networks of spiking neurons....