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An Image Denoising Method Based on Adaptive Weighted Total Variational Model

A technology of full variational model and adaptive weight, applied in the field of image processing, which can solve the problems of noise sensitivity, lack of anti-diffusion ability, and affecting image denoising effect, so as to avoid the effect of ladder effect

Active Publication Date: 2021-08-06
XIAN UNIV OF TECH
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Problems solved by technology

[0003] However, the Rudin-Osher-Fatemi (ROF) model has a significant disadvantage that it is prone to step effect, that is, the flat area of ​​​​the image produces false boundaries.
Aiming at the shortcoming of total variation (ROF), Song proposed a generalized total variation denoising model based on the L1+p norm. This model can overcome the generation of false edges, but it is difficult to objectively select different images p Greatly affects the image denoising effect
Zhang Hongying and others introduced the gradient information of the image into the total variation denoising model. The model automatically selects the TV model with better edge preservation in the edge area of ​​the image, and automatically selects the L2 model with better smoothness in the smooth area. It is very sensitive and does not have the ability of anti-diffusion, and the model diffuses smoothly along the vertical direction of the pixel gradient, losing some important texture information, and in many applications that rely on images, any loss of information may have serious implications, especially in medical applications where human health and life are affected

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  • An Image Denoising Method Based on Adaptive Weighted Total Variational Model

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Embodiment 1

[0094] This embodiment chooses as Figure 4 As shown in the Lena (256×256) grayscale image, after adding Gaussian noise (σ=15) to the Lena (256×256) grayscale image, the following Figure 5 The noise image shown, for Figure 5 The noise image is denoised using the denoising method of the present invention, specifically according to the following steps:

[0095] Step 1, in order to reduce the sensitivity of the adaptive paradigm parameter g to noise, use guided filtering to process the noisy image, and get as follows Image 6 As shown in the smooth image, after the smooth image is processed by shock filter to enhance the edge information of the image, the following is obtained: Figure 7 The edge information enhanced image shown;

[0096] In order to reduce the sensitivity of the adaptive parameters to noise, the noisy image is processed with a non-local mean filter, and the following is obtained: Figure 8 The estimated denoised image u is shown as NL :

[0097]

[00...

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Abstract

The invention discloses an image denoising method based on an adaptive weight total variation model. According to establishing an adaptive weight total variation model, a non-local mean filter is used to process a noise image to obtain an estimated denoising image; After preprocessing, four edge operators are used for detection to obtain an edge detection image, and the adaptive paradigm parameters are defined according to the four edge operators; the weight of the noisy image is obtained by resetting the pixels of the edge detection image according to the adaptive paradigm parameters. Matrix; the step of substituting the estimated denoised image, the adaptive paradigm parameters and the weight matrix into the adaptive weight total variational model to obtain a denoised image. The invention can adaptively process the edge area and the smooth area of ​​the image separately according to the image features, maintain the texture and edge of the image while removing noise, and avoid the generation of the staircase effect.

Description

technical field [0001] The invention belongs to the technical field of image processing, and relates to an image denoising method based on an adaptive weight full variation model. Background technique [0002] The process of acquisition, storage and transmission of digital images will inevitably be polluted by noise, and denoising is needed to improve the quality. In the past two decades, partial differential equation (PDE) methods have been widely used in edge-preserving image denoising, especially the Rudin-Osher-Fatemi (ROF) model, which includes TV model normalized images and noise-preserving images. The process of seeking energy minimization between true items, the model seeks an image very close to the original image, and achieves a good denoising effect. [0003] However, the Rudin-Osher-Fatemi (ROF) model has a significant disadvantage that it is prone to step effect, that is, the flat area of ​​​​the image produces false boundaries. Aiming at the shortcoming of to...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T5/00G06T5/20G06T7/13
CPCG06T5/002G06T5/20G06T2207/20024G06T2207/20192G06T7/13
Inventor 赵明华陈棠石争浩李兵李丹王秦袁飞
Owner XIAN UNIV OF TECH
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