Data-driven discovery of quasiperiodically driven dynamics.

Das, Suddhasattwa; Mustavee, Shakib; Agarwal, Shaurya

The analysis of a timeseries can provide many new perspectives if it is accompanied by the assumption that the timeseries is generated from an underlying dynamical system. For example, statistical properties of the data can be related to measure theoretic aspects of the dynamics, and one can try to recreate the dynamics itself. The underlying dynamics could represent a natural phenomenon or a physical system, where the timeseries represents a sequence of measurements. In this paper, we present a completely data-driven framework to identify and model quasiperiodically driven dynamical systems (Q.P.D.) from the timeseries it generates. Q.P.D. are a special class of systems that are driven by a periodic source with multiple base frequencies. Such systems abound in nature, e.g., astronomy and traffic flow. Our framework reconstructs the dynamics into two components - the driving quasiperiodic source with generating frequencies; and the driven nonlinear dynamics. We make a combined use of a kernel-based harmonic analysis, kernel-based interpolation technique, and Koopman operator theory. Our framework provides accurate reconstructions and frequency identification for three real-world case studies.

OPERATOR theory; DYNAMICAL systems; TRAFFIC flow; STATISTICS; PHENOMENOLOGICAL theory (Physics)

Nonlinear Dynamics, 2025, Vol 113, Issue 5, p4097

0924-090X

Academic Journal

10.1007/s11071-024-09970-5