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Tracking Rhythmicity In Biomedical Signals Using Sequential Monte Carlo Methods, Sungan Kim
Tracking Rhythmicity In Biomedical Signals Using Sequential Monte Carlo Methods, Sungan Kim
Dissertations and Theses
Cyclical patterns are common in signals that originate from natural systems such as the human body and man-made machinery. Often these cyclical patterns are not perfectly periodic. In that case, the signals are called pseudo-periodic or quasi-periodic and can be modeled as a sum of time-varying sinusoids, whose frequencies, phases, and amplitudes change slowly over time. Each time-varying sinusoid represents an individual rhythmical component, called a partial, that can be characterized by three parameters: frequency, phase, and amplitude. Quasi-periodic signals often contain multiple partials that are harmonically related. In that case, the frequencies of other partials become exact integer multiples …