In this paper, we introduce a periodogram-like function, called expectile periodograms, for detecting and estimating hidden periodicity from observations with asymmetrically distributed noise. The expectile periodograms are constructed from trigonometric expectile regression where a specially designed objective function is used to substitute the squared $l_2$ norm that leads to the ordinary periodograms. The expectile periodograms have properties which are analogous to quantile periodograms, which provide a broader view of the time series by examining different expectile levels, but are much faster to calculate. The asymptotic properties are discussed and simulations show its efficiency and robustness in the presence of hidden periodicities with asymmetric or heavy-tailed noise. Finally, we leverage the inherent two-dimensional characteristics of the expectile periodograms and train a deep-learning (DL) model to classify the earthquake waveform data. Remarkably, our approach achieves heightened classification testing accuracy when juxtaposed with alternative periodogram-based methodologies.
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