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Housheng Su, Wang Xiaofan (Beteiligte)

Pinning Control of Complex Networked Systems


Synchronization, Consensus and Flocking of Networked Systems via Pinning
2013. 2015. xi, 163 S. 235 mm
Verlag/Jahr: SPRINGER, BERLIN; SPRINGER BERLIN HEIDELBERG 2015
ISBN: 3-642-44584-5 (3642445845)
Neue ISBN: 978-3-642-44584-2 (9783642445842)

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Synchronization, consensus and flocking are ubiquitous requirements in networked systems. This book investigates these requirements by using the pinning control strategy for the synchronization of complex dynamical networks.
Synchronization, consensus and flocking are ubiquitous requirements in networked systems. Pinning Control of Complex Networked Systems investigates these requirements by using the pinning control strategy, which aims to control the whole dynamical network with huge numbers of nodes by imposing controllers for only a fraction of the nodes. As the direct control of every node in a dynamical network with huge numbers of nodes might be impossible or unnecessary, it´s then very important to use the pinning control strategy for the synchronization of complex dynamical networks. The research on pinning control strategy in consensus and flocking of multi-agent systems can not only help us to better understand the mechanisms of natural collective phenomena, but also benefit applications in mobile sensor/robot networks. This book offers a valuable resource for researchers and engineers working in the fields of control theory and control engineering.

Housheng Su is an Associate Professor at the Department of Control Science and Engineering, Huazhong University of Science and Technology, China; Xiaofan Wang is a Professor at the Department of Automation, Shanghai Jiao Tong University, China.
Overview.- Pinning control for complete synchronization of complex dynamical networks.- Pinning control for cluster synchronization of complex dynamical networks.- Distributed pinning-controlled second-order consensus of multi-agent systems.- Distributed pinning-controlled consensus in a heterogeneous influence network.- Distributed pinning-controlled flocking with a virtual leader.- Distributed pinning-controlled flocking with preserved network connectivity.