Abstract
Low-rank (LR) and total variation (TV) are two most frequent priors that occur in image processing problems, and they have sparked a tremendous amount of researches, particularly for moving from scalar to vector, matrix or even high-order based functions. However, discretization schemes used for TV regularization often ignore the difference of the intrinsic properties, so it will lead to the problem that local smoothness cannot be effectively generated, let alone the problem of blurred edges. To address the image inpainting problem with corrupted data, in this paper, the color images are naturally considered as three-dimensional tensors, whose prior of smoothness can be measured by varietal TV norm along different dimensions. Specifically, we propose incorporating Shannon total variation (STV) and low-rank tensor completion (LRTC) into the construction of the final cost function, in which a new nonconvex low-rank constraint, namely truncated $\gamma $ -norm, is involved for closer rank approximation. Moreover, two methods are developed, i.e., LRRSTV and LRRSTV-T, due to the fact that LRTC can be represented by tensor unfolding and tensor decomposition. The final solution can be achieved by a practical variant of the augmented Lagrangian alternating direction method (ALADM). Experiments on color image inpainting tasks demonstrate that the proposed methods perform better then the state-of-the-art algorithms, both qualitatively and quantitatively.
Highlights
In the fields of computer vision and image processing [1], image inpainting is a vital research topic which can be regarded as a missing value estimation problem
3) As tensor completion can be formulated by both tensor unfolding and tensor decomposition, we propose two image inpainting approaches using direct tensor modeling techniques
The studies of Remy Abergel and Lionel Moisan show that it is difficult to interpolate on the processed images based on the variational total variation (TV) when the TV is discretized by the classical finite difference scheme
Summary
In the fields of computer vision and image processing [1], image inpainting is a vital research topic which can be regarded as a missing value estimation problem. The resulted model was optimized by minimizing the averaged constraint of the restored tensor Since it shared the same entries for all the unfolded matrices in each mode, their nuclear norms were interdependent . We consider that low-rank constraints, though useful, are not sufficient to effectively utilize some potential local structures of tensors for completion This point is especially evident in image inpainting. 3) As tensor completion can be formulated by both tensor unfolding and tensor decomposition, we propose two image inpainting approaches using direct tensor modeling techniques In this way, we can infer the multichannel factors and the predictive distribution over missing entries given an incomplete tensor. Ji Liu el.at propose High Accuracy Low Rank Tensor Completion (HaLRTC) algorithm [18] Even with a lower-thangroundtruth TV, the image is still visually noisy
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