Semi-Blind Image Deblurring Based on Framelet Prior
This work addresses image restoration for applications like photography, but it is incremental as it builds on established total variation techniques.
The paper tackles semi-blind image deblurring by improving the total variation method using framelet transform and fractional calculations, achieving competitive results compared to existing methods in tests on various image types.
The problem of image blurring is one of the most studied topics in the field of image processing. Image blurring is caused by various factors such as hand or camera shake. To restore the blurred image, it is necessary to know information about the point spread function (PSF). And because in the most cases it is not possible to accurately calculate the PSF, we are dealing with an approximate kernel. In this paper, the semi-blind image deblurring problem are studied. Due to the fact that the model of the deblurring problems is an ill-conditioned problem, it is not possible to solve this problem directly. One of the most efficient ways to solve this problem is to use the total variation (TV) method. In the proposed algorithm, by using the framelet transform and fractional calculations, the TV method is improved. The proposed method is used on different types of images and is compared with existing methods with different types of tests.