Title :
Average Performance Analysis for Thresholding
Author :
Schnass, Karin ; Vandergheynst, Pierre
Author_Institution :
Signal Processing Inst., Lausanne
Abstract :
In this letter, we show that with high probability, the thresholding algorithm can recover signals that are sparse in a redundant dictionary as long as the 2-Babel function is growing slowly. This implies that it can succeed for sparsity levels up to the order of the ambient dimension. The theoretical bounds are illustrated with numerical simulations. As an application of the theory, sensing dictionaries for optimal average performance are characterized, and their performance is tested numerically.
Keywords :
probability; signal representation; Babel function; numerical simulation; probability; sensing dictionary; signal recovery; thresholding algorithm; Algorithm design and analysis; Dictionaries; Matching pursuit algorithms; Numerical simulation; Performance analysis; Pursuit algorithms; Signal processing; Signal processing algorithms; Signal synthesis; Testing; Average performance; preconditioning; sensing dictionary; sparse approximation; thresholding;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2007.903248
