International audienceABSTRACT: We derive the mean-field equations arising as the limit of a network of interacting spiking neurons, as the number of neurons goes to infinity. The neurons belong to a fixed number of populations and are represented either by the Hodgkin-Huxley model or by one of its simplified version, the FitzHugh-Nagumo model. The synapses between neurons are either electrical or chemical. The network is assumed to be fully connected. The maximum conductances vary randomly. Under the condition that all neurons' initial conditions are drawn independently from the same law that depends only on the population they belong to, we prove that a propagation of chaos phenomenon takes place, namely that in the mean-field limit, any ...
We investigate a stochastic network composed of Integrate-and-Fire spiking neurons, focusing on its ...
International audienceIn this work, we provide three different numerical evidences for the occurrenc...
In this work we are interested in a mathematical model of the collective behavior of a fully connect...
International audienceABSTRACT: We derive the mean-field equations arising as the limit of a network...
55 pages, 9 figuresWe derive the mean-field equations arising as the limit of a network of interacti...
Mean-field description and propagation of chaos in networks of Hodgkin-Huxley and FitzHugh-Nagumo ne...
International audienceWe derive the mean-field equations of completely connected networks of excitat...
45 pagesIn this article, we are interested in the behavior of a fully connected network of $N$ neuro...
In this article, we are interested in the behavior of a fully connectednetwork of $N$ neurons, where...
We present a mean-field formalism able to predict the collective dynamics of large networks of condu...
In this work, we propose a nonlinear stochastic model of a network of stochastic spiking neurons. We...
20 pagesInternational audienceWe investigate the dynamics of large-scale interacting neural populati...
International audienceIn this note, we clarify the well-posedness of the limit equations to the mean...
The collective behavior of cortical neurons is strongly affected by the presence of noise at the lev...
Understanding the working principles of the brain constitutes the major challenge in computational n...
We investigate a stochastic network composed of Integrate-and-Fire spiking neurons, focusing on its ...
International audienceIn this work, we provide three different numerical evidences for the occurrenc...
In this work we are interested in a mathematical model of the collective behavior of a fully connect...
International audienceABSTRACT: We derive the mean-field equations arising as the limit of a network...
55 pages, 9 figuresWe derive the mean-field equations arising as the limit of a network of interacti...
Mean-field description and propagation of chaos in networks of Hodgkin-Huxley and FitzHugh-Nagumo ne...
International audienceWe derive the mean-field equations of completely connected networks of excitat...
45 pagesIn this article, we are interested in the behavior of a fully connected network of $N$ neuro...
In this article, we are interested in the behavior of a fully connectednetwork of $N$ neurons, where...
We present a mean-field formalism able to predict the collective dynamics of large networks of condu...
In this work, we propose a nonlinear stochastic model of a network of stochastic spiking neurons. We...
20 pagesInternational audienceWe investigate the dynamics of large-scale interacting neural populati...
International audienceIn this note, we clarify the well-posedness of the limit equations to the mean...
The collective behavior of cortical neurons is strongly affected by the presence of noise at the lev...
Understanding the working principles of the brain constitutes the major challenge in computational n...
We investigate a stochastic network composed of Integrate-and-Fire spiking neurons, focusing on its ...
International audienceIn this work, we provide three different numerical evidences for the occurrenc...
In this work we are interested in a mathematical model of the collective behavior of a fully connect...