Co-evolutionary adaptive mechanisms are not only ubiquitous in nature, but also beneficial for the functioning of a variety of systems. We here consider an adaptive network of oscillators with a stochastic, fitness-based, rule of connectivity, and show that it self-organizes from fragmented and incoherent states to connected and synchronized ones. The synchronization and percolation are associated to abrupt transitions, and they are concurrently (and significantly) enhanced as compared to the non-adaptive case. Finally we provide evidence that only partial adaptation is sufficient to determine these enhancements. Our study, therefore, indicates that inclusion of simple adaptive mechanisms can efficiently describe some emergent features of n...
Complex systems of coupled dynamical units can often be understood as adaptive networks. In such net...
In recent years, an abundance of studies in complex systems research have focused on deciphering the...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
Co-evolutionary adaptive mechanisms are not only ubiquitous in nature, but also beneficial for the f...
We analyze the interplay of synchronization and structure evolution in an evolving network of phase ...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
We consider a set of interacting phase oscillators, with a coupling between synchronized nodes adapt...
In this work we study the dynamics of Kuramoto oscillators on a stochastically evolving network whos...
Despite the large number of studies on synchronization, the hypothesis that interactions bear a cost...
"We investigate the effects of structural evolution on the stability of synchronized behavior in com...
Rhythmic activities that alternate between coherent and incoherent phases are ubiquitous in chemical...
We study the influence of the initial topology of connections on the organization of synchronous beh...
Networks of coupled dynamical units give rise to collective dynamics such as the synchronization of ...
Research on network percolation and synchronization has deepened our understanding of abrupt changes...
Complex network structures appear in myriad contexts. From social networks to computer networks, pro...
Complex systems of coupled dynamical units can often be understood as adaptive networks. In such net...
In recent years, an abundance of studies in complex systems research have focused on deciphering the...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...
Co-evolutionary adaptive mechanisms are not only ubiquitous in nature, but also beneficial for the f...
We analyze the interplay of synchronization and structure evolution in an evolving network of phase ...
Modular organization and degree-degree correlations are ubiquitous in the connectivity structure of ...
We consider a set of interacting phase oscillators, with a coupling between synchronized nodes adapt...
In this work we study the dynamics of Kuramoto oscillators on a stochastically evolving network whos...
Despite the large number of studies on synchronization, the hypothesis that interactions bear a cost...
"We investigate the effects of structural evolution on the stability of synchronized behavior in com...
Rhythmic activities that alternate between coherent and incoherent phases are ubiquitous in chemical...
We study the influence of the initial topology of connections on the organization of synchronous beh...
Networks of coupled dynamical units give rise to collective dynamics such as the synchronization of ...
Research on network percolation and synchronization has deepened our understanding of abrupt changes...
Complex network structures appear in myriad contexts. From social networks to computer networks, pro...
Complex systems of coupled dynamical units can often be understood as adaptive networks. In such net...
In recent years, an abundance of studies in complex systems research have focused on deciphering the...
In this article I investigate the novel synchronization behaviors of evolving pulse-coupled oscillat...