General design algorithm for sparse frame expansions

General design algorithm for sparse frame expansions

Signal expansions using frames may be considered as generalizations of signal representations based on transforms and filter banks. Frames, or dictionaries, for sparse signal representations may be designed using an iterative algorithm with two main steps: (1) Frame vector selection and expansion co...

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Bibliographic Details
Published in:Signal processing Vol. 86; no. 1; pp. 117 - 126
Main Authors: Skretting, Karl, Husøy, John Håkon, Aase, Sven Ole
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 2006
Elsevier Science
Subjects:
Applied sciences
Dictionary
Exact sciences and technology
Filter banks
Frame
Frame design
Information, signal and communications theory
Matching pursuit
Over-complete
Signal and communications theory
Signal representation. Spectral analysis
Signal, noise
Sparse signal representation
Telecommunications and information theory
Dictionary
Frame
Filter banks
Matching pursuit
Frame design
Over-complete
Sparse signal representation
Sparse representation
Filter bank
Signal representation
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Description
Summary:Signal expansions using frames may be considered as generalizations of signal representations based on transforms and filter banks. Frames, or dictionaries, for sparse signal representations may be designed using an iterative algorithm with two main steps: (1) Frame vector selection and expansion coefficient determination for signals in a training set, selected to be representative of the signals for which compact representations are desired, using the frame designed in the previous iteration. (2) Update of frame vectors with the objective of improving the representation of step (1). This method for frame design was used by [Engan et al., Signal Processing 80 (2000) 2121–2140] for block-oriented signal expansions, i.e. generalizations of block-oriented transforms and by [Aase et al., IEEE Trans. Signal Process. 49(5) (2001) 1087–1096] for non-block-oriented frames—for short overlapping frames, that may be viewed as generalizations of critically sampled filter banks. Here we give the solution to the general frame design problem using the compact notation of linear algebra. This makes the solution both conceptually and computationally easier, especially for the overlapping frame case. Also, the solution is more general than those presented earlier, facilitating the imposition of constraints, such as symmetry, on the designed frame vectors.
ISSN:0165-1684
1872-7557
DOI:10.1016/j.sigpro.2005.04.013