Title :
Image Super-Resolution via Local Self-Learning Manifold Approximation
Author :
Chinh Dang ; Aghagolzadeh, Mohammad ; Radha, Hayder
Author_Institution :
Dept. of Electr. & Comput. Eng., Michigan State Univ., East Lansing, MI, USA
Abstract :
This letter proposes a novel learning-based super-resolution method rooted in low dimensional manifold representations of high-resolution (HR) image-patch spaces. We exploit the input image and its different down-sampled scales to extract a set of training sample points using a min-max algorithm. A set of low dimensional tangent spaces is estimated from these samples using the l1 norm graph-based technique to cluster these samples into a set of manifold neighborhoods. The HR image is then reconstructed from these tangent spaces. Experimental results on standard images validate the effectiveness of the proposed method both quantitatively and perceptually.
Keywords :
image reconstruction; image resolution; minimax techniques; unsupervised learning; graph-based technique; high-resolution image-patch spaces; image reconstruction; image super-resolution; learning-based super-resolution; min-max algorithm; self-learning manifold approximation; Approximation methods; Estimation; Image reconstruction; Image resolution; Manifolds; Signal resolution; Training; Low-dimensional manifold; sparse graph; super-resolution; tangent space estimation;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2014.2332118
