Title :
Compressed Sensing and Redundant Dictionaries
Author :
Rauhut, Holger ; Schnass, Karin ; Vandergheynst, Pierre
Author_Institution :
Univ. of Vienna, Vienna
fDate :
5/1/2008 12:00:00 AM
Abstract :
This paper extends the concept of compressed sensing to signals that are not sparse in an orthonormal basis but rather in a redundant dictionary. It is shown that a matrix, which is a composition of a random matrix of certain type and a deterministic dictionary, has small restricted isometry constants. Thus, signals that are sparse with respect to the dictionary can be recovered via basis pursuit (BP) from a small number of random measurements. Further, thresholding is investigated as recovery algorithm for compressed sensing, and conditions are provided that guarantee reconstruction with high probability. The different schemes are compared by numerical experiments.
Keywords :
data compression; matrix algebra; probability; signal reconstruction; basis pursuit; compressed sensing; probability; random matrix; recovery algorithm; redundant dictionary; restricted isometry constants; signal reconstruction; signal thresholding; sparse signal; Compressed sensing; Decoding; Dictionaries; Greedy algorithms; Linear programming; Matching pursuit algorithms; Nuclear magnetic resonance; Signal processing algorithms; Sparse matrices; Spectroscopy; Basis pursuit (BP); compressed sensing; orthogonal matching pursuit; random matrix; redundant dictionary; restricted isometry constants; sparse approximation; thresholding;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.920190
