Choe, C.-U.; Jang, H.; Flunkert, V.; Dahms, T.; Hövel, P.; Schöll, E.
Dynamical Systems: An International Journal 28, 1-19 (2013)
We study networks of delay-coupled oscillators with the aim to extend time-delayed feedback control to networks. We show that unstable periodic orbits of a network can be stabilized by a noninvasive, delayed coupling. We state criteria for stabilizing the orbits by delay-coupling in networks and apply these to the case where the local dynamics is close to a subcritical Hopf bifurcation, which is representative of systems with torsion-free unstable periodic orbits. Using the multiple scale method and the master stability function approach, the network system is reduced to the normal form, and the characteristic equations for Floquet exponents are derived in an analytical form, which reveals the coupling parameters for successful stabilization. Finally, we illustrate the results by numerical simulations of the Lorenz system close to a subcritical Hopf bifurcation. The unstable periodic orbits in this system have no torsion, and hence cannot be stabilized by the conventional time delayed-feedback technique. http://www.tandfonline.com/doi/abs/10.1080/14689367.2012.730500
DOI | 10.1080/14689367.2012.730500 |
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