Title :
Breaking the ℓ1 recovery thresholds with reweighted ℓ1 optimization
Author :
Xu, Weiyu ; Khajehnejad, M. Amin ; Avestimehr, A. Salman ; Hassibi, Babak
fDate :
Sept. 30 2009-Oct. 2 2009
Abstract :
It is now well understood that l1 minimization algorithm is able to recover sparse signals from incomplete measurements and sharp recoverable sparsity thresholds have also been obtained for the l1 minimization algorithm. In this paper, we investigate a new iterative reweighted l1 minimization algorithm and showed that the new algorithm can increase the sparsity recovery threshold of l1 minimization when decoding signals from relevant distributions. Interestingly, we observed that the recovery threshold performance of the new algorithm depends on the behavior, more specifically the derivatives, of the signal amplitude probability distribution at the origin.
Keywords :
decoding; iterative methods; minimisation; basis pursuit; compressed sensing; grassman angle; iterative reweighted minimization algorithm; random linear subspaces; sharp recoverable sparsity thresholds; signal amplitude probability distribution; sparse signals; sparsity recovery threshold; Algorithm design and analysis; Compressed sensing; Iterative algorithms; Iterative decoding; Minimization methods; Probability distribution; Signal analysis; Sufficient conditions; Vectors; Grassmann angle; basis pursuit; compressed sensing; random linear subspaces; reweighted ℓ1 minimization;
Conference_Titel :
Communication, Control, and Computing, 2009. Allerton 2009. 47th Annual Allerton Conference on
Conference_Location :
Monticello, IL
Print_ISBN :
978-1-4244-5870-7
DOI :
10.1109/ALLERTON.2009.5394882
