The emergent cooperative behavior of mobile physical entities exchanging information with their neighborhood has become an important problem across disciplines, thus requiring a general framework to describe such a variety of situations. We introduce a generic model to tackle this problem by considering the synchronization in time-evolving networks generated by the stochastic motion of self-propelled physical interacting units. This framework generalizes previous approaches and brings a unified picture to understand the role played by the network topology, the motion of the agents, and their mutual interaction. This allows us to identify different dynamic regimes where synchronization can be understood from theoretical considerations. While...
This work presents a network of mobile systems whose nodes are constituted by a moving agent with an...
We design the interactions between oscillators communicating via variably delayed pulse coupling to ...
A sufficiently connected topology linking the constituent units of a complex system is usually seen ...
The emergent cooperative behavior of mobile physical entities exchanging information with their neig...
The emergent cooperative behavior of mobile physical entities exchanging information with their neig...
We present a model of synchronization in networks of autonomous agents where the topology changes du...
We study synchronization of systems in which agents holding chaotic oscillators move in a two-dimens...
The theory of pulse-coupled oscillators provides a framework to formulate and develop self-organizin...
We investigate synchronization in a population of mobile pulse-coupled agents with a view towards i...
We consider a set of mobile agents in a two dimensional space, each one of them carrying a chaotic o...
Synchrony prevalently emerges from the interactions of coupled dynamical units. For simple systems s...
We analyze the emergence of synchronization in a population of moving integrate-and-fire oscillators...
We here analyze a system consisting of agents moving in a two-dimensional space that interact with o...
We study synchronization of non-diffusively coupled map networks with arbitrary network topologies, ...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
This work presents a network of mobile systems whose nodes are constituted by a moving agent with an...
We design the interactions between oscillators communicating via variably delayed pulse coupling to ...
A sufficiently connected topology linking the constituent units of a complex system is usually seen ...
The emergent cooperative behavior of mobile physical entities exchanging information with their neig...
The emergent cooperative behavior of mobile physical entities exchanging information with their neig...
We present a model of synchronization in networks of autonomous agents where the topology changes du...
We study synchronization of systems in which agents holding chaotic oscillators move in a two-dimens...
The theory of pulse-coupled oscillators provides a framework to formulate and develop self-organizin...
We investigate synchronization in a population of mobile pulse-coupled agents with a view towards i...
We consider a set of mobile agents in a two dimensional space, each one of them carrying a chaotic o...
Synchrony prevalently emerges from the interactions of coupled dynamical units. For simple systems s...
We analyze the emergence of synchronization in a population of moving integrate-and-fire oscillators...
We here analyze a system consisting of agents moving in a two-dimensional space that interact with o...
We study synchronization of non-diffusively coupled map networks with arbitrary network topologies, ...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
This work presents a network of mobile systems whose nodes are constituted by a moving agent with an...
We design the interactions between oscillators communicating via variably delayed pulse coupling to ...
A sufficiently connected topology linking the constituent units of a complex system is usually seen ...