Fractional partial differential equation denoising models for texture image

In this paper,a set of fractional partial differential equations based on fractional total variation and fractional steepest descent approach are proposed to address the problem of traditional drawbacks of PM and ROF multi-scale denoising for texture image.By extending Green,Gauss,Stokes and Euler-L...

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Bibliographic Details
Published in:Science China. Information sciences 2014-07, Vol.57 (7), p.180-198
Main Authors: Pu, YiFei, Siarry, Patrick, Zhou, JiLiu, Liu, YiGuang, Zhang, Ni, Huang, Guo, Liu, YiZhi
Format: Article
Language:English
Subjects:
Algorithms
Computer Science
Descent
Information Systems and Communication Service
Mathematical models
Noise reduction
Partial differential equations
Research Paper
Stability
Stability analysis
Surface layer
Texture
偏微分方程
分数
去噪
微分方程式
拉格朗日公式
最速下降法
模型
纹理图像
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Summary:In this paper,a set of fractional partial differential equations based on fractional total variation and fractional steepest descent approach are proposed to address the problem of traditional drawbacks of PM and ROF multi-scale denoising for texture image.By extending Green,Gauss,Stokes and Euler-Lagrange formulas to fractional field,we can find that the integer formulas are just their special case of fractional ones.In order to improve the denoising capability,we proposed 4 fractional partial differential equation based multiscale denoising models,and then discussed their stabilities and convergence rate.Theoretic deduction and experimental evaluation demonstrate the stability and astringency of fractional steepest descent approach,and fractional nonlinearly multi-scale denoising capability and best value of parameters are discussed also.The experiments results prove that the ability for preserving high-frequency edge and complex texture information of the proposed denoising models are obviously superior to traditional integral based algorithms,especially for texture detail rich images.
ISSN:1674-733X
1869-1919
DOI:10.1007/s11432-014-5112-x