Error Analysis for Sparse Time-Frequency Decomposition of Non- Integer Period Sampling Signals
Authors
Qi Yang
Abstract
In \u00a0this \u00a0paper, \u00a0we \u00a0review \u00a0a \u00a0nonlinear \u00a0matching \u00a0pursuit \u00a0approach \u00a0(Hou \u00a0and \u00a0Shi, \u00a02013), \u00a0a \u00a0data-
driven \u00a0time-frequency \u00a0analysis \u00a0method, \u00a0which \u00a0is \u00a0looking \u00a0for \u00a0the \u00a0sparsest \u00a0representation \u00a0of \u00a0multiscale \u00a0data
over a dictionary consisting of all intrinsic mode functions (IMFs). In many practical problems, signals are
non-integer period sampled. In other words, the time window may not contain exactly an integer number of
signal periods. We consider the sparse time-frequency decomposition of non-integer period sampling signals
by the nonlinear matching pursuit method and estimate the error. The estimation show that the relative error
depends on the separation factor, the frequency ratio, and the number of periods of the IMF.
