Title :
An improved RIP-based performance guarantee for sparse signal reconstruction with noise via orthogonal matching pursuit
Author :
Ling-Hua Chang ; Jwo-Yuh Wu
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
Stability of sparse signal reconstruction in the noisy case via orthogonal matching pursuit has been widely studied in the literature of compressive sensing. To guarantee exact support identification under l2 / l∞-norm bounded noise, sufficient conditions, characterized in terms of the restricted isometry constant and the minimum magnitude of the signal components, were reported in [2]. In this paper, we derive a less conservative set of sufficient conditions of the same kind. Our analyses exploit a newly developed “near-orthogonality” condition, which specifies the achievable angles between two compressed orthogonal sparse vectors. Thus, our improved performance guarantee benefits from more explicit knowledge about the geometry of the compressed space.
Keywords :
compressed sensing; iterative methods; signal reconstruction; vectors; RIP-based performance guarantee; compressed orthogonal sparse vectors; compressed space geometry; compressive sensing; exact support identification; l2-l∞-norm bounded noise; near-orthogonality condition; orthogonal matching pursuit; restricted isometry constant; sparse signal reconstruction stability; Geometry; Matching pursuit algorithms; Noise; Sensors; Sparse matrices; Sufficient conditions; Vectors; compressive sensing; orthogonal matching pursuit (OMP); restricted isometry constant (RIC); restricted isometry property (RIP);
Conference_Titel :
Information Theory and its Applications (ISITA), 2014 International Symposium on
Conference_Location :
Melbourne, VIC
