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Phase autoencoder for limit-cycle oscillators

Koichiro Yawata, Kai Fukami, Kunihiko Taira, Hiroya Nakao

2024Chaos An Interdisciplinary Journal of Nonlinear Science14 citationsDOIOpen Access PDF

Abstract

We present a phase autoencoder that encodes the asymptotic phase of a limit-cycle oscillator, a fundamental quantity characterizing its synchronization dynamics. This autoencoder is trained in such a way that its latent variables directly represent the asymptotic phase of the oscillator. The trained autoencoder can perform two functions without relying on the mathematical model of the oscillator: first, it can evaluate the asymptotic phase and the phase sensitivity function of the oscillator; second, it can reconstruct the oscillator state on the limit cycle in the original space from the phase value as an input. Using several examples of limit-cycle oscillators, we demonstrate that the asymptotic phase and the phase sensitivity function can be estimated only from time-series data by the trained autoencoder. We also present a simple method for globally synchronizing two oscillators as an application of the trained autoencoder.

Topics & Concepts

AutoencoderLimit cycleLimit (mathematics)SynchronizingPhase spacePhase (matter)MathematicsStatistical physicsSynchronization (alternating current)Control theory (sociology)Applied mathematicsComputer sciencePhysicsArtificial neural networkTopology (electrical circuits)Mathematical analysisQuantum mechanicsArtificial intelligenceCombinatoricsControl (management)Nonlinear Dynamics and Pattern FormationMechanical and Optical ResonatorsNeural dynamics and brain function
Phase autoencoder for limit-cycle oscillators | Litcius