Robust Adaptive Synchronization of Dynamic Networks With Varying Time Delay Coupling Using Variable Structure Control
Date Issued
2014-10-22
Author(s)
Ojleska, Vesna M.
Tükel, Dilek (Bilgin)
Dimirovski, Georgi M.
DOI
10.1115/dscc2014-6264
Abstract
The synchronization problem for a class of delayed
complex dynamical networks via employing variable structure
control has been explored and a solution proposed. The
synchronization controller guarantees the state of the dynamical
network is globally asymptotically synchronized to arbitrary
state. The switching surface has been designed via the left
eigenvector function of the system, and assures the
synchronization sliding mode possesses stability. The hitting
condition and the adaptive law for estimating the unknown
network parameters have been used for designing the controller
hence the network state hits the switching manifold in finite
time. Two illustrative examples along with the respective
simulation results are given, which employ the designed
variable structure controllers.
complex dynamical networks via employing variable structure
control has been explored and a solution proposed. The
synchronization controller guarantees the state of the dynamical
network is globally asymptotically synchronized to arbitrary
state. The switching surface has been designed via the left
eigenvector function of the system, and assures the
synchronization sliding mode possesses stability. The hitting
condition and the adaptive law for estimating the unknown
network parameters have been used for designing the controller
hence the network state hits the switching manifold in finite
time. Two illustrative examples along with the respective
simulation results are given, which employ the designed
variable structure controllers.