Title :
Mixed operators in compressed sensing
Author :
Herman, Matthew A. ; Needell, Deanna
Author_Institution :
Dept. of Math., Univ. of California, Los Angeles, CA, USA
Abstract :
Applications of compressed sensing motivate the possibility of using different operators to encode and decode a signal of interest. Since it is clear that the operators cannot be too different, we can view the discrepancy between the two matrices as a perturbation. The stability of ¿1-minimization and greedy algorithms to recover the signal in the presence of additive noise is by now well-known. Recently however, work has been done to analyze these methods with noise in the measurement matrix, which generates a multiplicative noise term. This new framework of generalized perturbations (i.e., both additive and multiplicative noise) extends the prior work on stable signal recovery from incomplete and inaccurate measurements of Cande¿s, Romberg and Tao using Basis Pursuit (BP), and of Needell and Tropp using Compressive Sampling Matching Pursuit (CoSaMP). We show, under reasonable assumptions, that the stability of the reconstructed signal by both BP and CoSaMP is limited by the noise level in the observation. Our analysis extends easily to arbitrary greedy methods.
Keywords :
data compression; matrix algebra; perturbation techniques; signal detection; signal reconstruction; signal sampling; BP; CoSaMP; additive noise; compressed sensing; generalized perturbations; greedy algorithms; mixed operator; multiplicative noise; signal decoding; signal encoding; signal reconstruction; stable signal recovery; ¿1-minimization stability; Additive noise; Compressed sensing; Decoding; Greedy algorithms; Matching pursuit algorithms; Noise generators; Noise level; Noise measurement; Sampling methods; Stability;
Conference_Titel :
Information Sciences and Systems (CISS), 2010 44th Annual Conference on
Conference_Location :
Princeton, NJ
Print_ISBN :
978-1-4244-7416-5
Electronic_ISBN :
978-1-4244-7417-2
DOI :
10.1109/CISS.2010.5464909
