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- Title
Eliminating synchronization in bistable networks.
- Authors
Ratas, Irmantas; Pyragas, Kestutis
- Abstract
The problem of controlling synchrony in bistable networks, which possess coherent and incoherent attractors in a certain range of parameters, is considered. Along with the known Kuramoto-type models, we introduce the bistable networks consisting of all-to-all coupled noisy FitzHugh-Nagumo neurons as well as chaotic Rulkov neurons. We suggest two different algorithms to switch the bistable networks from the stable coherent state to the stable incoherent state. One of them is an act-and-wait control method, which utilizes the mean field measurements and homogeneous time delayed feedback perturbations with the periodically switched on and off feedback gain. We show that this algorithm is efficient for the globally coupled populations. Another algorithm is based on the multisite coordinated reset stimulation. The algorithm is nonfeedback, but it uses inhomogeneous perturbations and is efficient even for the networks with a complex scale-free topology. In addition to the numerical analysis of finite-size networks, the analytical results for the Kuramoto-type models in the thermodynamic limit are presented.
- Subjects
BISTABLE devices; NEURONS; ALGORITHMS; MEAN field theory; PERTURBATION theory; THERMODYNAMICS; MATHEMATICAL models
- Publication
Nonlinear Dynamics, 2016, Vol 83, Issue 3, p1137
- ISSN
0924-090X
- Publication type
Article
- DOI
10.1007/s11071-015-2393-6