Abstract
Recently, image deblurring task is valuable and challenging in computer vision. However, existing learning-based methods can not produce satisfactory results, such as lacking of salient structures and fine details. In this paper, we propose a solution to transform spatially variant blurry images into the photo-realistic sharp manifold. In this paper, we investigate an attention network for image deblurring. Instead of relying on local receptive fields to construct features by previous state-of-the-art methods, the non-local features for capturing long-range dependencies and the local features rely on receptive fields should be jointly considered. Therefore, we propose a novel dense feature fusion block that consists of a channel attention module and a pixel attention module. In addition, we further densely connected multiple dense feature fusion blocks to acquire high-order feature representation. Moreover, a scale attention module is further introduced for removing unfavorable features while retaining features that facilitate image recovery. Comprehensive experimental results show that our method is able to generate photo-realistic sharp images from real-world blurring images and outperforms state-of-the-art methods.
Highlights
Image deblurring is a challenging problem in the field of image restoration
We investigate an attention network rather than the local features for blind image deblurring
The introduced a dense feature fusion group aims at investigating the relationship between non-local features and local features
Summary
Image deblurring is a challenging problem in the field of image restoration. Blind image deblurring is to estimate the underlying image from the single degraded observation where the kernels are absent. S where f (B, K ) implies priors information based on image statistics or hand-crafted priors These early methods are proposed based on the assumption of linear space-invariant blurring process. Due to these methods involve solving optimization equations, sometimes may converge to local solutions. It leads the inaccurate kernel estimation and the incomplete clean image. Methods [20]–[27] adopt the end-to-end trainable networks which input the degraded observations and directly obtain the underlying clean images This learning manner directly avoids the potential effect of the kernel estimation. The proposed edge loss aims at generating latent images having the quality of sharp edges and the content loss function is utilized for preserving the semantic features of images
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