Harmonic decomposition of audio signals with matching pursuit

Author

Gribonval, Rémi ; Bacry, Emmanuel

Author_Institution

French Nat. Center for Comput. Sci. & Control (INRIA), IRISA/INRIA, Rennes, France

Volume

51

Issue

1

fYear

2003

Firstpage

101

Lastpage

111

Abstract

We introduce a dictionary of elementary waveforms, called harmonic atoms, that extends the Gabor dictionary and fits well the natural harmonic structures of audio signals. By modifying the "standard" matching pursuit, we define a new pursuit along with a fast algorithm, namely, the fast harmonic matching pursuit, to approximate N-dimensional audio signals with a linear combination of M harmonic atoms. Our algorithm has a computational complexity of O(MKN), where K is the number of partials in a given harmonic atom. The decomposition method is demonstrated on musical recordings, and we describe a simple note detection algorithm that shows how one could use a harmonic matching pursuit to detect notes even in difficult situations, e.g., very different note durations, lots of reverberation, and overlapping notes.

Keywords

audio signal processing; computational complexity; harmonic analysis; music; reverberation; signal detection; signal representation; Gabor dictionary; audio signals decomposition; computational complexity; elementary waveforms dictionary; fast algorithm; fast harmonic matching pursuit; harmonic atoms; harmonic decomposition; musical recordings; natural harmonic structures; note detection algorithm; note durations; overlapping notes; reverberation; time-frequency representation; Audio recording; Computational complexity; Detection algorithms; Dictionaries; Fourier transforms; Frequency; Harmonic analysis; Matching pursuit algorithms; Pursuit algorithms; Signal analysis;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/TSP.2002.806592

Filename

1145710