The classical TV (Total Variation) model has been applied to gray texture image denoising and inpainting previously based on the non local operators, but such model can not be directly used to color texture image inpa...The classical TV (Total Variation) model has been applied to gray texture image denoising and inpainting previously based on the non local operators, but such model can not be directly used to color texture image inpainting due to coupling of different image layers in color images. In order to solve the inpainting problem for color texture images effectively, we propose a non local CTV (Color Total Variation) model. Technically, the proposed model is an extension of local TV model for gray images but we take account of the coupling of different layers in color images and make use of concepts of the non-local operators. As the coupling of different layers for color images in the proposed model will in-crease computational complexity, we also design a fast Split Bregman algorithm. Finally, some numerical experiments are conducted to validate the performance of the proposed model and its algorithm.展开更多
The traditional Total-Variation algorithm has a good result to de-noise for noise image of small scale details, but it easily losses the details for the image with rich texture and tiny boundary. In order to solve thi...The traditional Total-Variation algorithm has a good result to de-noise for noise image of small scale details, but it easily losses the details for the image with rich texture and tiny boundary. In order to solve this problem, this paper proposes a Sobel-TV model algorithm for image denoising. It uses TV model to de-noise and uses Sobel algorithm to control smoothness of image, which not only efficiently removes image noise but also simultaneously retail information, such as edge and texture. The experiments demonstrate that the proposed algorithm is simple, practical and generates better SNR, which is an important value to preprocess image.展开更多
为解决Curvelet图像去噪所产生的"环绕"效应以及非局部TV模型去噪过度平滑而无法保持细小纹理的问题,本文提出了一种基于Curvelet变换与非局部TV模型相结合的图像去噪方法(Curvelet and Non-Local TV,CNL-TV)。该方法首先对...为解决Curvelet图像去噪所产生的"环绕"效应以及非局部TV模型去噪过度平滑而无法保持细小纹理的问题,本文提出了一种基于Curvelet变换与非局部TV模型相结合的图像去噪方法(Curvelet and Non-Local TV,CNL-TV)。该方法首先对含噪图像进行Curvelet变换,将其分解成不同尺度的图像;其次根据每层图像的特性,选择合适的非局部TV模型参数分别进行处理;最后将处理后的每层图像融合。实验结果表明,该算法不仅能够有效地减少噪声,消除Curvelet去噪产生的"环绕"效应,而且最大程度地保持了图像中的细小纹理成分。通过比较不同方法所得结果的峰值信噪比,验证了算法的有效性。展开更多
文摘The classical TV (Total Variation) model has been applied to gray texture image denoising and inpainting previously based on the non local operators, but such model can not be directly used to color texture image inpainting due to coupling of different image layers in color images. In order to solve the inpainting problem for color texture images effectively, we propose a non local CTV (Color Total Variation) model. Technically, the proposed model is an extension of local TV model for gray images but we take account of the coupling of different layers in color images and make use of concepts of the non-local operators. As the coupling of different layers for color images in the proposed model will in-crease computational complexity, we also design a fast Split Bregman algorithm. Finally, some numerical experiments are conducted to validate the performance of the proposed model and its algorithm.
文摘The traditional Total-Variation algorithm has a good result to de-noise for noise image of small scale details, but it easily losses the details for the image with rich texture and tiny boundary. In order to solve this problem, this paper proposes a Sobel-TV model algorithm for image denoising. It uses TV model to de-noise and uses Sobel algorithm to control smoothness of image, which not only efficiently removes image noise but also simultaneously retail information, such as edge and texture. The experiments demonstrate that the proposed algorithm is simple, practical and generates better SNR, which is an important value to preprocess image.
文摘为解决Curvelet图像去噪所产生的"环绕"效应以及非局部TV模型去噪过度平滑而无法保持细小纹理的问题,本文提出了一种基于Curvelet变换与非局部TV模型相结合的图像去噪方法(Curvelet and Non-Local TV,CNL-TV)。该方法首先对含噪图像进行Curvelet变换,将其分解成不同尺度的图像;其次根据每层图像的特性,选择合适的非局部TV模型参数分别进行处理;最后将处理后的每层图像融合。实验结果表明,该算法不仅能够有效地减少噪声,消除Curvelet去噪产生的"环绕"效应,而且最大程度地保持了图像中的细小纹理成分。通过比较不同方法所得结果的峰值信噪比,验证了算法的有效性。