This paper addresses the problem of synchronization for complex dynamical networks with non-identical nodes. Neither an equilibrium for each node nor a synchronization manifold is assumed to exist. A criterion of global synchronization in the sense of boundedness of the maximum state deviation between nodes is proposed by introducing the average dynamics of all nodes. An explicit bound of the maximum state deviation between nodes is obtained by the maximum difference between each node dynamics and the average dynamics. The proposed criterion is an extension of the related synchronization criteria for the case of identical nodes to the case of non-identical nodes
This book brings together two emerging research areas: synchronization in coupled nonlinear systems ...
This paper deals with H?? synchronization problem for a class of complex networks with each node bei...
In this paper, we consider the global asymptotic synchronization of a class of dynamical networks wh...
This note addresses the problem of synchronization for general dynamical networks with nonidentical ...
This paper presents a framework for global synchronization of dynamical networks with nonidentical n...
This paper is concerned with the problem of global synchronization for a class of dynamical complex ...
The global synchronization problem for general dynamical networks with non-identical nodes is studie...
This paper concerns the global synchronization problem of a class of complex dynamical networks with...
This paper presents a framework for global synchronization of dynamical networks with nonidentical n...
Abstract — It is well known that complex networks have become a very important part of our daily liv...
This paper investigates generalized synchronization of three typical classes of complex dynamical ne...
This paper is concerned with the global synchronization in Lur'e complex dynamical networks. Compare...
We analyze the stability of synchronized state for coupled nearly identical dynamical systems on net...
This paper investigates synchronization issues of a heterogeneous complex network with a general swi...
Output synchronization of dynamical networks with non-identical nodes is studied using the passivity...
This book brings together two emerging research areas: synchronization in coupled nonlinear systems ...
This paper deals with H?? synchronization problem for a class of complex networks with each node bei...
In this paper, we consider the global asymptotic synchronization of a class of dynamical networks wh...
This note addresses the problem of synchronization for general dynamical networks with nonidentical ...
This paper presents a framework for global synchronization of dynamical networks with nonidentical n...
This paper is concerned with the problem of global synchronization for a class of dynamical complex ...
The global synchronization problem for general dynamical networks with non-identical nodes is studie...
This paper concerns the global synchronization problem of a class of complex dynamical networks with...
This paper presents a framework for global synchronization of dynamical networks with nonidentical n...
Abstract — It is well known that complex networks have become a very important part of our daily liv...
This paper investigates generalized synchronization of three typical classes of complex dynamical ne...
This paper is concerned with the global synchronization in Lur'e complex dynamical networks. Compare...
We analyze the stability of synchronized state for coupled nearly identical dynamical systems on net...
This paper investigates synchronization issues of a heterogeneous complex network with a general swi...
Output synchronization of dynamical networks with non-identical nodes is studied using the passivity...
This book brings together two emerging research areas: synchronization in coupled nonlinear systems ...
This paper deals with H?? synchronization problem for a class of complex networks with each node bei...
In this paper, we consider the global asymptotic synchronization of a class of dynamical networks wh...