Title :
Compressed Sensing via Sparse Bayesian Learning and Gibbs Sampling
Author :
Tan, Xing ; Li, Jian
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Florida, Gainesville, FL
Abstract :
Sparse Bayesian Learning (SBL) has been used as a sparse signal recovery algorithm for compressed sensing. It has been shown that SBL is easy to use and can recover sparse signals more accurately than the l 1 based optimization approaches, which require a delicate choice of user parameters. We propose herein a modified Expectation Maximization (EM) based SBL algorithm referred to as SBL-alpha and a block Gibbs sampling algorithm referred to as BGS-alpha, both of which are based on a three-stage hierarchical Bayesian model. We compare both methods to a widely used benchmark SBL algorithm, which is equivalent to SBL-alpha with a = 0. We show that SBL-alpha with alpha = 1 not only is more accurate than the benchmark SBL algorithm in terms of the reconstruction error, but also converges faster. BGS-alpha with alpha = 1.5 is more accurate than SBL-1, but requires more computations.
Keywords :
Bayes methods; data compression; optimisation; sampling methods; sensors; SBL-alpha; block Gibbs sampling algorithm; compressed sensing; modified expectation maximization based SBL algorithm; optimization approach; sparse Bayesian learning; sparse signal recovery; three-stage hierarchical Bayesian model; Bayesian methods; Compressed sensing; Equations; Optimization methods; Sampling methods; Signal processing; Sparse matrices; Transform coding; Vectors; Compressed Sensing; Gibbs Sampler; Sparse Bayesian Learning;
Conference_Titel :
Digital Signal Processing Workshop and 5th IEEE Signal Processing Education Workshop, 2009. DSP/SPE 2009. IEEE 13th
Conference_Location :
Marco Island, FL
Print_ISBN :
978-1-4244-3677-4
Electronic_ISBN :
978-1-4244-3677-4
DOI :
10.1109/DSP.2009.4786011
