Title :
Algorithm of Adaptive Fourier Decomposition
Author :
Qian, Tao ; Zhang, Liming ; Li, Zhixiong
Author_Institution :
Dept. of Math., Univ. of Macau, Macao, China
Abstract :
The present paper is a continuing work on the recently established adaptive Fourier decomposition (AFD) mainly stressing on the algorithm aspect, including algorithm analysis and numerical examples. AFD is a variation and realization of greedy algorithm (matching pursuit) suitable for the Hardy H2 and the L2 spaces. Applying AFD to a given signal, one obtains a series expansion in the basic signals, called mono-components, that possess non-negative analytic phase derivatives (functions), or, equivalently, meaningful analytic instantaneous frequencies. AFD is shown to be robust with computational complexity comparable with DFT. Consistent to the greedy algorithm principle experiments show that AFD produces (pre-) mono-component series with efficient energy decay that also leads to efficient pointwise convergence, both in terms of computer running time.
Keywords :
Fourier transforms; computational complexity; greedy algorithms; signal processing; Hardy H2 space; Hardy L2 space; adaptive Fourier decomposition; analytic instantaneous frequency; analytic signal; computational complexity; greedy algorithm; mono-components; nonnegative analytic phase derivatives; pointwise convergence; Algorithm design and analysis; Greedy algorithms; Matching pursuit algorithms; Adaptive decomposition; Hardy spaces; Hilbert transform; analytic signal; greedy algorithm; instantaneous frequency; matching pursuit; mono-components; rational orthogonal system;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2011.2168520
