IEEE Access (Jan 2021)

Extraction of Instantaneous Frequencies and Amplitudes in Nonstationary Time-Series Data

  • Daniel E. Shea,
  • Rajiv Giridharagopal,
  • David S. Ginger,
  • Steven L. Brunton,
  • J. Nathan Kutz

DOI
https://doi.org/10.1109/ACCESS.2021.3087595
Journal volume & issue
Vol. 9
pp. 83453 – 83466

Abstract

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Time-series analysis is critical for a diversity of applications in science and engineering. By leveraging the strengths of modern gradient descent algorithms, the Fourier transform, multi-resolution analysis, and Bayesian spectral analysis, we propose a data-driven approach to time-frequency analysis that circumvents many of the shortcomings of classic approaches, including the extraction of nonstationary signals with discontinuities in their behavior. The method introduced is equivalent to a nonstationary Fourier mode decomposition (NFMD) for nonstationary and nonlinear temporal signals, allowing for the accurate identification of instantaneous frequencies and their amplitudes. The method is demonstrated on a diversity of time-series data, including on data from cantilever-based electrostatic force microscopy to quantify the time-dependent evolution of charging dynamics at the nanoscale.

Keywords