To describe the collective behavior of large ensembles of neurons in neuronal network, a kinetic theory description was developed in [13, 12], where a macroscopic representation of the network dynamics was directly derived from the microscopic dynamics of individual neurons, which are modeled by conductance-based, linear, integrate-and-fire point neurons. A diffusion approximation then led to a nonlinear Fokker-Planck equation for the probability density function of neuronal membrane potentials and synaptic conductances. In this work, we propose a deterministic numerical scheme for a Fokker-Planck model of an excitatory-only network. Our numerical solver allows us to obtain the time evolution of probability distribution functions, and thus,...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
The profile of transmembrane-channel expression in neurons is class dependent and a crucial determin...
Despite the huge number of neurons composing the brain networks, ongoing activity of local cell asse...
To describe the collective behavior of large ensembles of neurons in neuronal network, a kinetic the...
Steady dynamics of coupled conductance-based integrate-and-fire neuronal networks in the limit of sm...
Abstract. We present a detailed theoretical framework for statistical descriptions of neuronal netwo...
Minimal models for the explanation of decision-making in computational neuroscience are based on the...
We review a statistical physics approach for reduced descriptions of neuronal network dynamics. From...
Populations of spiking neuron models have densities of their microscopic variables (e.g., single-cel...
The integrate-and-fire neuron with exponential postsynaptic potentials is a frequently employed mode...
A diffusion model for the description of neurons' membrane potential fluctuations is proposed. Thoug...
We study a Fokker-Planck equation modelling the firing rates of two interacting populations of neuro...
The collective dynamics of neuronal networks can be complex even when simplified one-compartment spi...
We present a kinetic theory for all-to-all coupled networks of identical, linear, integrate-andfire,...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
The profile of transmembrane-channel expression in neurons is class dependent and a crucial determin...
Despite the huge number of neurons composing the brain networks, ongoing activity of local cell asse...
To describe the collective behavior of large ensembles of neurons in neuronal network, a kinetic the...
Steady dynamics of coupled conductance-based integrate-and-fire neuronal networks in the limit of sm...
Abstract. We present a detailed theoretical framework for statistical descriptions of neuronal netwo...
Minimal models for the explanation of decision-making in computational neuroscience are based on the...
We review a statistical physics approach for reduced descriptions of neuronal network dynamics. From...
Populations of spiking neuron models have densities of their microscopic variables (e.g., single-cel...
The integrate-and-fire neuron with exponential postsynaptic potentials is a frequently employed mode...
A diffusion model for the description of neurons' membrane potential fluctuations is proposed. Thoug...
We study a Fokker-Planck equation modelling the firing rates of two interacting populations of neuro...
The collective dynamics of neuronal networks can be complex even when simplified one-compartment spi...
We present a kinetic theory for all-to-all coupled networks of identical, linear, integrate-andfire,...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
The profile of transmembrane-channel expression in neurons is class dependent and a crucial determin...
Despite the huge number of neurons composing the brain networks, ongoing activity of local cell asse...