Pinning synchronization of complex networks with delayed nodes

@article{Guo2015PinningSO,
  title={Pinning synchronization of complex networks with delayed nodes},
  author={Wanli Guo and Shihua Chen and A. Arockia John Francis},
  journal={International Journal of Adaptive Control and Signal Processing},
  year={2015},
  volume={29},
  pages={603 - 613},
  url={https://api.semanticscholar.org/CorpusID:60605442}
}
  • Wanli GuoShihua ChenA. Francis
  • Published 1 May 2015
  • Engineering, Mathematics, Physics
  • International Journal of Adaptive Control and Signal Processing
The dynamical mechanism of synchronization in general complex networks with delayed nodes is revealed by suitably adding linear and adaptive feedback controllers to a certain sub-collection of the nodes and numerical examples are provided to demonstrate the effectiveness of the theory.
View on Wiley
5 Citations
Background Citations
2

5 Citations

Pinning Synchronization of Complex Dynamical Networks With Multiweights

Two complex dynamical networks with multiweights, which have several different sorts of weights between two nodes, are introduced by means of Lyapunov functional method and pinning control technique to ensure the synchronization for proposed network models.

Adaptive Synchronization of Complex Dynamical Networks in Presence of Coupling Connections With Dynamical Behavior

By introducing a distributed adaptive controller, the synchronization conditions are derived by utilizing the Lyapunov(–Krasovskii) theorem, provided in the form of linear matrix inequalities (LMIs), which can be easily solved by standard LMI solvers even for large networks due to a few numbers of scalar decision variables.

Synchronization in nonlinear complex networks with multiple time‐varying delays via adaptive aperiodically intermittent control

This article is concerned with the problem of synchronization in nonlinear complex networks with multiple time‐varying delays via adaptive aperiodically intermittent control and several synchronization criteria are rigorously induced based on the Lyapunov stability theory.

Adaptive control for synchronization of semi‐linear complex spatio‐temporal networks with time‐invariant coupling delay and time‐variant coupling delay

The adaptive control for synchronization of semi‐linear complex spatio‐temporal networks (CSNs) with time‐invariant coupling delay and time‐variant coupling Delay and the adaptive control strategies are proposed to reach the asymptotic convergence of synchronization error.

Influence of Intercluster Connection Mode on Cluster Network Synchronization

    Yi WangZhi-hao Li
    Computer Science, Engineering
    Journal of Physics: Conference Series
  • 2021
Using the second eigenvalue and the synchronization dynamics to compare the synchronization capabilities of cluster networks in different inter-cluster interconnection modes, it is found that the cluster networks interconnected by BDN mode have stronger synchronization capabilities.

23 References

Adaptive Feedback Synchronization of a General Complex Dynamical Network With Delayed Nodes

The hypotheses and the proposed adaptive controllers for network synchronization are very simple and can be readily applied in practical applications and several novel criteria for globally exponentially asymptotic synchronization are obtained.

Synchronization in small-world oscillator networks with coupling delays

Synchronization and desynchronization of complex dynamical networks: an engineering viewpoint

It is shown that synchronization and desynchronization of such a complex dynamical network can be determined by the network topology and the maximum Lyapunov exponent of the individual chaotic nodes.

Synchronization in scale-free dynamical networks: robustness and fragility

It is shown that if the coupling strength of a scale-free dynamical network is greater than a positive threshold, then the network will synchronize no matter how large it is, which is robust against random removal of nodes, but is fragile to specific removal of the most highly connected nodes.

Global synchronization in general complex delayed dynamical networks and its applications

Synchronization of coupled connected neural networks with delays

This work investigates synchronization of an array of linearly coupled identical connected neural networks with delays with delays using the linear matrix inequality approach to judge synchronization with global convergence property.

A new method to realize cluster synchronization in connected chaotic networks.

In this article, a new method, which constructs a coupling scheme with cooperative and competitive weight-couplings, is used to stabilize arbitrarily selected cluster synchronization patterns with

Dynamics of periodic delayed neural networks

Synchronization in power-law networks.

It is found that networks with realistic power-law graphs are less synchronizable than classical random networks, and hybrid graphs, which consist of two parts: a global graph and a local graph, are almost surely synchronize.

New approach to synchronization analysis of linearly coupled ordinary differential systems