Paper Info
Title
Adaptive dictionary learning in sparse gradient domain for CT reconstruction
Abstract
Image recovery from undersampled data has always been a challenging and fascinating task due to its implicit ill-posed nature and significance accompanied with the emerging compressed sensing (CS) theory. This paper proposes a novel Gradient based Dictionary Learning method for CT image Reconstruction (GradDL-CT), which alleviates the drawback of the popular total variation (TV) regularization by employing dictionary learning technique. Specifically, we firstly train dictionaries from the horizontal and vertical gradients of the image respectively, and then reconstruct the desired image using the sparse representations of both derivatives, exploiting gradient magnitude image sparsity for reduction in the number of projections or the X-ray dose. Preliminary results on phantom and real CT images demonstrate that the proposed method can efficiently recover images and presents advantages over the current state-of-the-art reconstruction approaches.
Year
DOI
Venue
2014
10.1109/ISBI.2014.6867836
ISBI
Keywords
Field
DocType
total variation regularization,image representation,sparse gradient domain,computerised tomography,adaptive dictionary learning,alternating direction method,x-ray dose,gradient-based dictionary learning method,learning (artificial intelligence),graddl-ct,dictionary learning,image reconstruction,gradient magnitude image,image recovery,dosimetry,compressed sensing,ct reconstruction,gradient magnitude image sparsity,medical image processing,sparse representation
Computer vision,Dictionary learning,Pattern recognition,Computer science,Artificial intelligence
Conference
ISSN
Citations 
PageRank 
1945-7928
1
0.35
References 
Authors
6
3
Name
Order
Citations
PageRank
Qiegen Liu124928.53
Minghui Zhang211.37
Jun Zhao39216.79