Image deblurring using robust sparsity priors

In this paper, we propose a robust method to remove motion blur from a single photograph. We find that an inaccurate kernel and an unreliable final latent image reconstruction method are two main factors leading to low-quality restored images. To improve image quality, we do the following technical contributions. For robust blur kernel estimation, first, an edge mask and a smooth constraint are used to provide reliable intermediate latent images for salient structure extraction; second, we adopt an effective salient structure selection method to remove detrimental edges for kernel estimation; third, we use a gradient sparsity prior to remove kernel noise and ensure the continuity of blur kernels. For final latent image reconstruction, we combine the merits of both the TV-l₂ model and the hyper-Laplacian model to preserve tiny details and eliminate noise. Experimental results on synthetically blurred images and real photographs demonstrate that the proposed algorithm performs better than state-of-the-art approaches.