DocumentCode
610036
Title
Progressive Image Restoration through Hybrid Graph Laplacian Regularization
Author
Deming Zhai ; Xianming Liu ; Debin Zhao ; Hong Chang ; Wen Gao
Author_Institution
Sch. of Comput. Sci. & Technol., Harbin Inst. of Technol., Harbin, China
fYear
2013
fDate
20-22 March 2013
Firstpage
103
Lastpage
112
Abstract
In this paper, we propose a unified framework to perform progressive image restoration based on hybrid graph Laplacian regularized regression. We first construct a multi-scale representation of the target image by Laplacian pyramid, then progressively recover the degraded image in the scale space from coarse to fine so that the sharp edges and texture can be eventually recovered. On one hand, within each scale, a graph Laplacian regularization model represented by implicit kernel is learned which simultaneously minimizes the least square error on the measured samples and preserves the geometrical structure of the image data space by exploring non-local self-similarity. In this procedure, the intrinsic manifold structure is considered by using both measured and unmeasured samples. On the other hand, between two scales, the proposed model is extended to the parametric manner through explicit kernel mapping to model the inter-scale correlation, in which the local structure regularity is learned and propagated from coarser to finer scales. Experimental results on benchmark test images demonstrate that the proposed method achieves better performance than state-of-the-art image restoration algorithms.
Keywords
Laplace transforms; correlation theory; data structures; edge detection; fractals; graph theory; image representation; image restoration; image texture; regression analysis; Laplacian pyramid; edge sharpening; explicit kernel mapping; geometrical image data space structure; hybrid graph Laplacian regularized regression; image texture; implicit kernel; interscale correlation; intrinsic manifold structure; multiscale target image representation; progressive image restoration; self-similarity; structure regularity; Image restoration; Kernel; Laplace equations; Linear programming; Manifolds; Noise; Noise measurement; Graph Laplacian Regularization; Image Restoration;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Compression Conference (DCC), 2013
Conference_Location
Snowbird, UT
ISSN
1068-0314
Print_ISBN
978-1-4673-6037-1
Type
conf
DOI
10.1109/DCC.2013.18
Filename
6543046
Link To Document