A novel variable exponent PDE with dependency on γ(u,|∇u0,σ|) for image despeckling application

IF 1.8 3区数学 Q1 MATHEMATICS, APPLIED Nonlinear Analysis-Real World Applications Pub Date : 2024-11-22 DOI:10.1016/j.nonrwa.2024.104264

A. Nachaoui , A. Laghrib , A. Hadri , M. Nachaoui

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Abstract

Within the realm of image processing, image denoising holds significant importance. This study focuses on tackling denoising challenges posed by Speckle noise. We introduce a novel variable

γ (u, | \nabla u_{0, σ} |)

-PDE-based denoising model, offering a fresh perspective. Our approach involves a unique class of PDEs, wherein the nonlinear structure relies on spatially nonlocal exponent dependent factors linked to the target solution and also its gradient. This innovation incorporates grayscale information by introducing the variable exponent

γ

, which controls much better the diffusion and incorporates information from wide regions. The existence and uniqueness of the proposed PDE are established through Galerkin’s approximation. Furthermore, a series of experiments are conducted for denoising, including comparisons with other models, in order to validate the selection of the variable exponent parameter. This research contributes to the advancement of image denoising methods with high theoretical foundations and potential implications for other applications.

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用于图像消斑的依赖于 γ(u,|∇u0,σ|) 的新型可变指数 PDE

在图像处理领域，图像去噪具有重要意义。本研究的重点是解决斑点噪声带来的去噪难题。我们引入了一个新颖的基于变量 γ(u,|∇u0,σ|)-PDE 的去噪模型，提供了一个全新的视角。我们的方法涉及一类独特的 PDE，其中的非线性结构依赖于与目标解及其梯度相关的空间非局部指数因子。这种创新通过引入可变指数 γ 来纳入灰度信息，从而更好地控制扩散并纳入来自广泛区域的信息。通过伽勒金近似，确定了所提出的 PDE 的存在性和唯一性。此外，还进行了一系列去噪实验，包括与其他模型的比较，以验证可变指数参数的选择。这项研究为图像去噪方法的发展做出了贡献，具有很高的理论基础，并对其他应用具有潜在影响。

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来源期刊

Nonlinear Analysis-Real World Applications 数学-应用数学

CiteScore

3.80

自引率

5.00%

发文量

176

审稿时长

59 days

期刊介绍： Nonlinear Analysis: Real World Applications welcomes all research articles of the highest quality with special emphasis on applying techniques of nonlinear analysis to model and to treat nonlinear phenomena with which nature confronts us. Coverage of applications includes any branch of science and technology such as solid and fluid mechanics, material science, mathematical biology and chemistry, control theory, and inverse problems. The aim of Nonlinear Analysis: Real World Applications is to publish articles which are predominantly devoted to employing methods and techniques from analysis, including partial differential equations, functional analysis, dynamical systems and evolution equations, calculus of variations, and bifurcations theory.