Dynamics of Coupled Stochastic van der Pol Oscillators: Bifurcations, Synchronization and Chaos
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Abstract
This work presents a comprehensive analysis of coupled stochastic van der Pol oscillators, a paradigm for understanding synchronization, bifurcations, and chaos in nonlinear systems subject to random fluctuations.
The system comprises two or more oscillators with nonlinear damping, linear diffusive coupling, and additive Gaussian white noise.
We develop a unified framework that systematically connects global bifurcations, synchronization phenomena, and chaotic dynamics within a single coherent stochastic model.
We explore the stochastic dynamics of coupled van der Pol oscillators by seamlessly blending theoretical principles with in-depth numerical simulations.
This integrated approach forms a robust framework for analysis, with essential phenomena clearly depicted in the accompanying figures.
We then extend this framework to a comprehensive investigation of large networks, focusing on their continuum limit, emergent pattern formation, the role of noise, and the onset of collective chaos.