In this paper we deal with a model describing the evolution in time of the density of a neural population in a state space, where the state is given by Izhikevich’s two - dimensional single neuron model. The main goal is to mathematically describe the occurrence of a significant phenomenon observed in neurons populations, the synchronization. To this end, we are making the transition to phase density population, and use Malkin theorem to calculate the phase deviations of a weakly coupled population model
International audienceObservability is the property that enables recovering the state of a dynamical...
Abstract. We study a modification of the Hoppensteadt-Izhikevich canonical model for networks of cla...
We use the theory of noise-induced phase synchronization to analyze the effects of demographic noise...
In this paper we deal with a model describing the evolution in time of the density of a ne...
In this paper we deal with a model describing the evolution in time of the density of a neural popul...
Abstract. In this paper we deal with a model describing the evolution in time of the density of a ne...
Daffertshofer, A. [Promotor]Stefanovska, A. [Promotor]McClintock, P.V.E. [Copromotor
Quantitatively understanding how populations of neurons interact in the brain is one of the great ch...
International audiencePopulation density models that are used to describe the evolution of neural po...
Simultaneously recorded neurons often exhibit correlations in their spiking activity. These correlat...
In this thesis, our goal was to study the phase synchronization between two uncoupled oscillators re...
Population density techniques can be used to simulate the behavior of a population of neurons which ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We study the frequency and phase synchronization in two coupled identical and nonidentical neurons w...
In this thesis we discuss the synchronization of stochastic population oscillators in ecology and ne...
International audienceObservability is the property that enables recovering the state of a dynamical...
Abstract. We study a modification of the Hoppensteadt-Izhikevich canonical model for networks of cla...
We use the theory of noise-induced phase synchronization to analyze the effects of demographic noise...
In this paper we deal with a model describing the evolution in time of the density of a ne...
In this paper we deal with a model describing the evolution in time of the density of a neural popul...
Abstract. In this paper we deal with a model describing the evolution in time of the density of a ne...
Daffertshofer, A. [Promotor]Stefanovska, A. [Promotor]McClintock, P.V.E. [Copromotor
Quantitatively understanding how populations of neurons interact in the brain is one of the great ch...
International audiencePopulation density models that are used to describe the evolution of neural po...
Simultaneously recorded neurons often exhibit correlations in their spiking activity. These correlat...
In this thesis, our goal was to study the phase synchronization between two uncoupled oscillators re...
Population density techniques can be used to simulate the behavior of a population of neurons which ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We study the frequency and phase synchronization in two coupled identical and nonidentical neurons w...
In this thesis we discuss the synchronization of stochastic population oscillators in ecology and ne...
International audienceObservability is the property that enables recovering the state of a dynamical...
Abstract. We study a modification of the Hoppensteadt-Izhikevich canonical model for networks of cla...
We use the theory of noise-induced phase synchronization to analyze the effects of demographic noise...