We consider a model for the propagation of electrical impulses or activity in a neuronal network. The vertices of a square lattice represent neurons, and the edges of the lattice represent the synaptic connections. Each vertex v is assigned a type: inhibitory or excitatory. The dynamics of propagation of the initial activity captures features of the “integrate-and-fire” model. We study the spread of activation in a large network and describe possible spatio-temporal limiting patterns depending on the initial activation. The rich palette of the limits with qualitatively different properties, including expanding patterns, fixed patterns, and patterns moving across the network, allows us to argue that this is a versatile model for the study of...
International audienceWe derive the mean-field equations of completely connected networks of excitat...
This report is concerned with the relevance of the microscopic rules that implement individual neuro...
A rule dynamical system is constructed using one-dimensional elementary cellular au-tomata, and the ...
We consider a model for the propagation of electrical impulses or activity in a neuronal network. Th...
We examine the collective dynamics of heterogeneous random networks of model neuronal cellular autom...
32 pages, 9 figuresWe present a mathematical analysis of a network with integrate and fire neurons, ...
International audienceWe present a mathematical analysis of a networks with Integrate-and-Fire neuro...
Living neuronal networks in dissociated neuronal cultures are widely known for their ability to gene...
AbstractWe study the firing rate properties of a cellular automaton model for a neuronal network wit...
We study the firing rate properties of a cellular automaton model for a neuronal network with chemic...
We present a mathematical analysis of a networks with Integrate-and-Fire neurons with conductance ba...
One of the main challenges in the simulation of even reduced areas of the brain is the presence of a...
We outline the basic principles of neuropercolation, a generalized percolation model motivated by th...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
Neural systems show a wide variety of complex dynamics on different time scales. Specifically, on th...
International audienceWe derive the mean-field equations of completely connected networks of excitat...
This report is concerned with the relevance of the microscopic rules that implement individual neuro...
A rule dynamical system is constructed using one-dimensional elementary cellular au-tomata, and the ...
We consider a model for the propagation of electrical impulses or activity in a neuronal network. Th...
We examine the collective dynamics of heterogeneous random networks of model neuronal cellular autom...
32 pages, 9 figuresWe present a mathematical analysis of a network with integrate and fire neurons, ...
International audienceWe present a mathematical analysis of a networks with Integrate-and-Fire neuro...
Living neuronal networks in dissociated neuronal cultures are widely known for their ability to gene...
AbstractWe study the firing rate properties of a cellular automaton model for a neuronal network wit...
We study the firing rate properties of a cellular automaton model for a neuronal network with chemic...
We present a mathematical analysis of a networks with Integrate-and-Fire neurons with conductance ba...
One of the main challenges in the simulation of even reduced areas of the brain is the presence of a...
We outline the basic principles of neuropercolation, a generalized percolation model motivated by th...
<div><p>The brain exhibits temporally complex patterns of activity with features similar to those of...
Neural systems show a wide variety of complex dynamics on different time scales. Specifically, on th...
International audienceWe derive the mean-field equations of completely connected networks of excitat...
This report is concerned with the relevance of the microscopic rules that implement individual neuro...
A rule dynamical system is constructed using one-dimensional elementary cellular au-tomata, and the ...