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- Title
Removing blur kernel noise via a hybrid l<sub>p</sub> norm.
- Authors
Xin Yu; Shunli Zhang; Xiaolin Zhao; Li Zhang
- Abstract
When estimating a sharp image from a blurred one, blur kernel noise often leads to inaccurate recovery. We develop an effective method to estimate a blur kernel which is able to remove kernel noise and prevent the production of an overly sparse kernel. Our method is based on an iterative framework which alternatingly recovers the sharp image and estimates the blur kernel. In the image recovery step, we utilize the total variation (TV) regularization to recover latent images. In solving TV regularization, we propose a new criterion which adaptively terminates the iterations before convergence. While improving the efficiency, the quality of the final results is not degraded. In the kernel estimation step, we develop a metric to measure the usefulness of image edges, by which we can reduce the ambiguity of kernel estimation caused by small-scale edges. We also propose a hybrid lp norm, which is composed of l2 norm and lp norm with 0.7 ⩽ p < 1, to construct a sparsity constraint. Using the hybrid lp norm, we reduce a wider range of kernel noise and recover a more accurate blur kernel. The experiments show that the proposed method achieves promising results on both synthetic and real images.
- Subjects
ACOUSTIC transients; NOISE; SOUND; KERNEL functions; IMAGE processing
- Publication
Journal of Electronic Imaging, 2015, Vol 24, Issue 1, p013011-1
- ISSN
1017-9909
- Publication type
Article
- DOI
10.1117/1.JEI.24.1.013011