Title :
Sparse and structured decompositions of signals with the molecular matching pursuit
Author_Institution :
Lab. d´´Acoustique Musicale, Univ. Pierre et Marie Curie, Paris
Abstract :
This paper describes the Molecular Matching Pursuit (MMP), an extension of the popular Matching Pursuit (MP) algorithm for the decomposition of signals. The MMP is a practical solution which introduces the notion of structures within the framework of sparse overcomplete representations; these structures are based on the local dependency of significant time-frequency or time-scale atoms. We show that this algorithm is well adapted to the representation of real signals such as percussive audio signals. This is at the cost of a slight sub-optimality in terms of the rate of convergence for the approximation error, but the benefits are numerous, most notably a significant reduction in the computational cost, which facilitates the processing of long signals. Results show that this algorithm is very promising for high-quality adaptive coding of audio signals
Keywords :
audio coding; signal representation; time-frequency analysis; approximation error; audio signal adaptive coding; cost reduction; molecular matching pursuit; percussive audio signals; signal decomposition; signal representation; sparse overcomplete representations; time-frequency atoms; time-scale atoms; Approximation error; Convergence; Costs; Dictionaries; Discrete wavelet transforms; Iterative algorithms; Matching pursuit algorithms; Pursuit algorithms; Signal processing; Time frequency analysis; Matching pursuit; overcomplete representations; parametric audio coding; time-frequency transforms;
Journal_Title :
Audio, Speech, and Language Processing, IEEE Transactions on
DOI :
10.1109/TSA.2005.858540
