The human electroencephalogram (EEG) is globally characterized by a 1/f power spectrum superimposed with certain peaks, whereby the "alpha peak" in a frequency range of 8-14 Hz is the most prominent one for relaxed states of wakefulness. We present simulations of a minimal dynamical network model of leaky integrator neurons attached to the nodes of an evolving directed and weighted random graph (an Erdos-Renyi graph). We derive a model of the dendritic field potential (DFP) for the neurons leading to a simulated EEG that describes the global activity of the network. Depending on the network size, we find an oscillatory transition of the simulated EEG when the network reaches a critical connectivity. This transition, indicated by a suitably ...
This thesis explores the dynamics of a physiologically realistic mathematical model of a neural popu...
Electroencephalogram (EEG) have played an important role for studying the neurocognitive function su...
International audienceNetwork science has been extensively developed to characterize the structural ...
There is some complementarity of models for the origin of the electroencephalogram (EEG), and neural...
There is some complementarity of models for the origin of the electroencephalogram (EEG) and neural ...
Like many systems in nature, the brain is a highly organised unit of interacting components. A natur...
Objective: To develop a method for simulating background EEG based on the premise that the self-orga...
We investigate a model of randomly copuled neurons. The elements are FitzHgh-Nagumo excitable neuron...
Current theories and models of brain rhythm generation are based on (1) the excitability of individu...
A recently proposed mean-field theory of mammalian cortex rhythmogenesis describes the salient featu...
Hallmarks of neural dynamics during healthy human brain states span spatial scales from neuromodulat...
Brain electric field potentials are dominated by an arrhythmic broadband signal, but the underlying ...
This study combines modeling of neuronal activity and networks derived from neuroimaging data in ord...
Graph theory has evolved into a useful tool for studying complex brain networks inferred from a vari...
Networks of living neurons exhibit an avalanche mode of activity, experimentally found in organotypi...
This thesis explores the dynamics of a physiologically realistic mathematical model of a neural popu...
Electroencephalogram (EEG) have played an important role for studying the neurocognitive function su...
International audienceNetwork science has been extensively developed to characterize the structural ...
There is some complementarity of models for the origin of the electroencephalogram (EEG), and neural...
There is some complementarity of models for the origin of the electroencephalogram (EEG) and neural ...
Like many systems in nature, the brain is a highly organised unit of interacting components. A natur...
Objective: To develop a method for simulating background EEG based on the premise that the self-orga...
We investigate a model of randomly copuled neurons. The elements are FitzHgh-Nagumo excitable neuron...
Current theories and models of brain rhythm generation are based on (1) the excitability of individu...
A recently proposed mean-field theory of mammalian cortex rhythmogenesis describes the salient featu...
Hallmarks of neural dynamics during healthy human brain states span spatial scales from neuromodulat...
Brain electric field potentials are dominated by an arrhythmic broadband signal, but the underlying ...
This study combines modeling of neuronal activity and networks derived from neuroimaging data in ord...
Graph theory has evolved into a useful tool for studying complex brain networks inferred from a vari...
Networks of living neurons exhibit an avalanche mode of activity, experimentally found in organotypi...
This thesis explores the dynamics of a physiologically realistic mathematical model of a neural popu...
Electroencephalogram (EEG) have played an important role for studying the neurocognitive function su...
International audienceNetwork science has been extensively developed to characterize the structural ...