Most real systems are growing. In order to model the evolution of real systems, many growing network models have been proposed to reproduce some specific topology properties. As the structure strongly influences the network function, designing the function-aimed growing strategy is also a significant task with many potential applications. In this letter, we focus on synchronization in the growing networks. In order to enhance the synchronizability during the network evolution, we propose the Spectral-Based Growing (SBG) strategy. Based on the linear stability analysis of synchronization, we show that our growing mechanism yields better synchronizability than the existing topology-aimed growing strategies starting from both artificial and re...
"We investigate the effects of structural evolution on the stability of synchronized behavior in com...
Synchronization in random networks with given expected degree sequences is studied. We also investig...
The synchronization of a network depends on a number of factors, including the strength of the coupl...
Advances in complex network research have recently stimulated increasing interests in understanding ...
In this letter, a model for growing highly synchronizable networks is introduced. The model is based...
Synchronization is an important behavior that characterizes many natural and human made systems that...
Enhancing the synchronization of dynamical networks is of great interest to those designing and anal...
The interaction between the evolution of the game and the underlying network structure with evolving...
Synchronization stability in complex networks is a topic of theoretical interest and practical impor...
Synchronization stability in complex networks is a topic of theoretical interest and practical impor...
Abstract — Recent studies have shown that many real networks follow the power-law distribution of no...
Many engineered and natural systems are modeled as networks of coupled systems. Synchronization is o...
We study the synchronizability and the synchronization dynamics of networks of nonlinear oscillators...
In this work we study the dynamics of Kuramoto oscillators on a stochastically evolving network whos...
ABSTRACT In this paper we describe possible decentralized strategies to adaptively synchronize compl...
"We investigate the effects of structural evolution on the stability of synchronized behavior in com...
Synchronization in random networks with given expected degree sequences is studied. We also investig...
The synchronization of a network depends on a number of factors, including the strength of the coupl...
Advances in complex network research have recently stimulated increasing interests in understanding ...
In this letter, a model for growing highly synchronizable networks is introduced. The model is based...
Synchronization is an important behavior that characterizes many natural and human made systems that...
Enhancing the synchronization of dynamical networks is of great interest to those designing and anal...
The interaction between the evolution of the game and the underlying network structure with evolving...
Synchronization stability in complex networks is a topic of theoretical interest and practical impor...
Synchronization stability in complex networks is a topic of theoretical interest and practical impor...
Abstract — Recent studies have shown that many real networks follow the power-law distribution of no...
Many engineered and natural systems are modeled as networks of coupled systems. Synchronization is o...
We study the synchronizability and the synchronization dynamics of networks of nonlinear oscillators...
In this work we study the dynamics of Kuramoto oscillators on a stochastically evolving network whos...
ABSTRACT In this paper we describe possible decentralized strategies to adaptively synchronize compl...
"We investigate the effects of structural evolution on the stability of synchronized behavior in com...
Synchronization in random networks with given expected degree sequences is studied. We also investig...
The synchronization of a network depends on a number of factors, including the strength of the coupl...