AbstractWe define a subclass of timed automata, called oscillator timed automata, suitable to model biological oscillators. Coupled biological oscillators may synchronise, as emerging behaviour, after a period of time in which they interact through physical or chemical means. We introduce a parametric semantics for their interaction that is general enough to capture the behaviour of different types of oscillators. We instantiate it both to the Kuramoto model, a model of synchronisation based on smooth interaction, and to the Peskin model of pacemaker cells in the heart, a model of synchronisation based on pulse interaction. We also introduce a logic, Biological Oscillators Synchronisation Logic (BOSL), that is able to describe collective sy...
The principles of event-based control appear to be abackbone of many self-coordinating natural syste...
Spontaneous synchronization of coupled oscillators is a phenomenon that occurs throughout the natura...
The integrate-and-fire model is an oft-used model to describe biological oscillators. In their semin...
We define a subclass of timed automata, called oscillator timed automata, suitable to model biologic...
AbstractWe define a subclass of timed automata, called oscillator timed automata, suitable to model ...
AbstractWe define a subclass of timed automata, called oscillator timed automata, suitable to model ...
We define a subclass of timed automata, called oscillator timed automata, suitable to model biologic...
Synchronisation is an emergent phenomenon observable in nature. Natural synchronising systems have i...
A new synchronization model based on pulse-coupled oscillators is proposed. A population of coupled ...
The general purpose of this paper is to build up on our understanding of the basic mathematical prin...
In this paper we analyze the dynamics of two different models of oscillators. The most relevant aspe...
Many biological systems consisting of a population of oscillators exhibit self-synchronization. In s...
Abstract — The emergence of synchronization in a network of coupled oscillators is a pervasive topic...
Abstract — The emergence of synchronization in a network of coupled oscillators is a pervasive topic...
The principles of event-based control appear to be abackbone of many self-coordinating natural syste...
Spontaneous synchronization of coupled oscillators is a phenomenon that occurs throughout the natura...
The integrate-and-fire model is an oft-used model to describe biological oscillators. In their semin...
We define a subclass of timed automata, called oscillator timed automata, suitable to model biologic...
AbstractWe define a subclass of timed automata, called oscillator timed automata, suitable to model ...
AbstractWe define a subclass of timed automata, called oscillator timed automata, suitable to model ...
We define a subclass of timed automata, called oscillator timed automata, suitable to model biologic...
Synchronisation is an emergent phenomenon observable in nature. Natural synchronising systems have i...
A new synchronization model based on pulse-coupled oscillators is proposed. A population of coupled ...
The general purpose of this paper is to build up on our understanding of the basic mathematical prin...
In this paper we analyze the dynamics of two different models of oscillators. The most relevant aspe...
Many biological systems consisting of a population of oscillators exhibit self-synchronization. In s...
Abstract — The emergence of synchronization in a network of coupled oscillators is a pervasive topic...
Abstract — The emergence of synchronization in a network of coupled oscillators is a pervasive topic...
The principles of event-based control appear to be abackbone of many self-coordinating natural syste...
Spontaneous synchronization of coupled oscillators is a phenomenon that occurs throughout the natura...
The integrate-and-fire model is an oft-used model to describe biological oscillators. In their semin...