通过调整动态时间尺度恢复多路复用网络上的同步振荡

arXiv - PHYS - Chaotic Dynamics Pub Date : 2024-06-29 DOI:arxiv-2407.00368

Aiwin T Vadakkan, Umesh Kumar Verma, G. Ambika

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引用次数: 0

摘要

在实际复杂系统中观察到的相互作用动力系统之间或相互作用模式的异质性，往往会导致部分同步状态（如嵌合体）或振荡抑制状态（如同质或均质稳定状态）。在这种情况下，许多应用都需要恢复同步振荡，但这确实是一个挑战。我们将介绍如何通过调整系统的动态时间尺度来恢复同步振荡。为此，我们使用了多路复用网络模型，其中第一层耦合振荡器与环境层进行了多路复用，环境层可以产生各种可能的嵌合态和抑制态。我们的研究表明，通过调整层间的时间尺度失配，我们可以在两个层中恢复同步振荡状态。我们分析了向同步过渡的性质，并在双层和三层多路复用网络中验证了这些结果。

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Recovery of synchronized oscillations on multiplex networks by tuning dynamical time scales

The heterogeneity among interacting dynamical systems or in the pattern of interactions observed in real complex systems, often lead to partially synchronized states like chimeras or oscillation suppressed states like inhomogeneous or homogeneous steady states. In such cases, recovering synchronized oscillations back is required in many applications but is a real challenge. We present how synchronized oscillations can be restored by tuning the dynamical time scales of the system. For this we use the model of a multiplex network where first layer of coupled oscillators is multiplexed with an environmental layer that can generate various possible chimera states and suppressed states. We show that by tuning the time scale mismatch between the layers , we can revive synchronized oscillations in both layers from these states. We analyse the nature of the transition to synchronization and the results are verified for two- and three-layer multiplex networks.

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arXiv - PHYS - Chaotic Dynamics

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