Networks of neurons produce diverse patterns of oscillations, arising from the network's global properties, the propensity of individual neurons to oscillate, or a mixture of the two. Here we describe noisy limit cycles and quasi-cycles, two related mechanisms underlying emergent oscillations in neuronal networks whose individual components, stochastic spiking neurons, do not themselves oscillate. Both mechanisms are shown to produce gamma band oscillations at the population level while individual neurons fire at a rate much lower than the population frequency. Spike trains in a network undergoing noisy limit cycles display a preferred period which is not found in the case of quasi-cycles, due to the even faster decay of phase information i...
Neuronal activity in the central nervous system varies strongly in time and across neuronal populati...
Neuromorphic networks can be described in terms of coarse-grained variables, where emergent sustaine...
A complex interplay of single-neuron properties and the recurrent network structure shapes the activ...
We show that networks of excitatory neurons with stochastic spontaneous spiking activity and short-t...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
We investigate a model for neural activity that generates long range temporal correlations, 1/ f noi...
International audienceOscillations in the beta/low gamma range (10-45 Hz) are recorded in diverse ne...
Spike patterns are among the most common electrophysiological descriptors of neuron types. Surprisin...
Upon sensory stimulation, primary cortical areas readily engage in narrow-band rhythmic activity bet...
We seek to understand collective neural phenomena such as synchronization, correlation transfer and ...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Oscillatory brain activity is believed to play a central role in neural coding. Accumulating evidenc...
International audienceRhythmic activity plays a central role in neural computations and brain functi...
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...
Neuromorphic networks can be described in terms of coarse-grained variables, where emergent sustaine...
A complex interplay of single-neuron properties and the recurrent network structure shapes the activ...
We show that networks of excitatory neurons with stochastic spontaneous spiking activity and short-t...
Fast oscillations of the population firing rate in the gamma range (50-200 Hz), where each individua...
We investigate a model for neural activity that generates long range temporal correlations, 1/ f noi...
International audienceOscillations in the beta/low gamma range (10-45 Hz) are recorded in diverse ne...
Spike patterns are among the most common electrophysiological descriptors of neuron types. Surprisin...
Upon sensory stimulation, primary cortical areas readily engage in narrow-band rhythmic activity bet...
We seek to understand collective neural phenomena such as synchronization, correlation transfer and ...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Oscillatory brain activity is believed to play a central role in neural coding. Accumulating evidenc...
International audienceRhythmic activity plays a central role in neural computations and brain functi...
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...
Neuromorphic networks can be described in terms of coarse-grained variables, where emergent sustaine...
A complex interplay of single-neuron properties and the recurrent network structure shapes the activ...