Coupling conditions for globally stable and robust synchrony of chaotic systems
| Autor: | Saha, Suman, Mishra, Arindam, Padmanaban, E., Bhowmick, Sourav K., Roy, Prodyot K., Dam, Bivas, Dana, Syamal K. |
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| Rok vydání: | 2017 |
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| Druh dokumentu: | Working Paper |
| DOI: | 10.1103/PhysRevE.95.062204 |
| Popis: | We propose a set of general coupling conditions to select a coupling profile (a set of coupling matrices) from the linear flow matrix (LFM) of dynamical systems for realizing global stability of complete synchronization (CS) in identical systems and robustness to parameter perturbation. The coupling matrices define the coupling links between any two oscillators in a network that consists of a conventional diffusive coupling link (self-coupling link) as well as a cross-coupling link. The addition of a selective cross-coupling link in particular plays constructive roles that ensure the global stability of synchrony and furthermore enables robustness of synchrony against small to non-small parameter perturbation. We elaborate the general conditions for the selection of coupling profiles for two coupled systems, three- and four-node network motifs analytically as well as numerically using benchmark models, the Lorenz system, the Hindmarsh-Rose neuron model, the Shimizu-Morioka laser model, the R\"ossler system and a Sprott system. The role of the cross-coupling link is, particularly, exemplified with an example of a larger network where it saves the network from a breakdown of synchrony against large parameter perturbation in any node. The perturbed node in the network transits from CS to generalized synchronization (GS) when all the other nodes remain in CS. The GS is manifested by an amplified response of the perturbed node in a coherent state. Comment: 13 pages, 11 figures, Physical Review E (accepted) |
| Databáze: | arXiv |
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