期刊
SIAM JOURNAL ON APPLIED DYNAMICAL SYSTEMS
卷 20, 期 4, 页码 1985-2012出版社
SIAM PUBLICATIONS
DOI: 10.1137/20M1357755
关键词
Key words; oscillators; synchronization; frequency adaptation; slow-fast dynamics
资金
- New York University
- European Research Council (ERC) under the European Union [637935]
This paper investigates the process of transforming oscillators into adaptive frequency oscillators through an adaptation mechanism and demonstrates the fast-slow dynamics involved. The study shows that the input signal forces the dynamics to jump between stable and unstable invariant slow manifolds, resulting in exponential convergence of frequency adaptation.
Oscillators have two main limitations: their synchronization properties are limited (i.e., they have a finite synchronization region) and they have no memory of past interactions (i.e., they return to their intrinsic frequency whenever the entraining signal disappears). We previously proposed a general mechanism to transform an oscillator into an adaptive frequency oscillator which adapts its parameters to learn the frequency of any input signal. The synchronization region then becomes infinite and the oscillator retains the entrainment frequency when the driving signal disappears. While this mechanism has been successfully used in various applications, such as robot control or observer design for active prosthesis, a formal understanding of its properties is still missing. In this paper, we study the adaptation mechanism in the case of strongly coupled phase oscillators and show that nontrivial slow-fast dynamics is at the origin of the adaptation. We show the existence of a layered structure of stable and unstable invariant slow manifolds and demonstrate how the input signal forces the dynamics to jump between these manifolds at regular intervals, leading to exponential convergence of the frequency adaptation. We extend the idea to a network of oscillators with amplitude adaptation and show that the slow invariant manifolds structure persists. Numerical simulations validate our analysis and extend the discussion to more complex cases.
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