We study the spatio-temporal dynamics of a multiplex network of delay-coupled FitzHugh–Nagumo oscillators with non-local and fractal connectivities. Apart from chimera states, a new regime of coexistence of slow and fast oscillations is found. An analytical explanation for the emergence of such coexisting partial synchronization patterns is given. Furthermore, we propose a control scheme for the number of fast and slow neurons in each layer.DFG, 163436311, SFB 910: Kontrolle selbstorganisierender nichtlinearer Systeme: Theoretische Methoden und Anwendungskonzept
We study a model for a network of synaptically coupled, excitable neurons to identify the role of co...
We investigate the effect of coupling delays on the synchronization properties of several network mo...
In this paper we analyze the dynamics of two different models of oscillators. The most relevant aspe...
Synchronization in networks of interacting dynamical systems is an interesting phenomenon that arise...
Time delay in complex networks with multiple interacting layers gives rise to special dynamics. We s...
We show how a variety of stable spatio-temporal periodic patterns can be created in 2D-lattices of c...
The phenomenon of enhancement of synchronization due to time delay is investigated in an arbitrary d...
In this communication we present some of our recent results on the synchronization properties of dir...
We investigate the stability of synchronization in networks of delay-coupled excitable neural oscill...
Synchronization patterns have been observed in neuronal networks and are related to many cognitive f...
A prominent feature of the dynamics of large neuronal networks are the synchrony-driven collective o...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
Chimera states are an example of intriguing partial synchronization patterns emerging in networks of...
Network couplings of oscillatory large-scale systems, such as the brain, have a space-time structure...
We consider networks of time-delayed diffusively coupled systems and relate conditions for synchroni...
We study a model for a network of synaptically coupled, excitable neurons to identify the role of co...
We investigate the effect of coupling delays on the synchronization properties of several network mo...
In this paper we analyze the dynamics of two different models of oscillators. The most relevant aspe...
Synchronization in networks of interacting dynamical systems is an interesting phenomenon that arise...
Time delay in complex networks with multiple interacting layers gives rise to special dynamics. We s...
We show how a variety of stable spatio-temporal periodic patterns can be created in 2D-lattices of c...
The phenomenon of enhancement of synchronization due to time delay is investigated in an arbitrary d...
In this communication we present some of our recent results on the synchronization properties of dir...
We investigate the stability of synchronization in networks of delay-coupled excitable neural oscill...
Synchronization patterns have been observed in neuronal networks and are related to many cognitive f...
A prominent feature of the dynamics of large neuronal networks are the synchrony-driven collective o...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
Chimera states are an example of intriguing partial synchronization patterns emerging in networks of...
Network couplings of oscillatory large-scale systems, such as the brain, have a space-time structure...
We consider networks of time-delayed diffusively coupled systems and relate conditions for synchroni...
We study a model for a network of synaptically coupled, excitable neurons to identify the role of co...
We investigate the effect of coupling delays on the synchronization properties of several network mo...
In this paper we analyze the dynamics of two different models of oscillators. The most relevant aspe...