Noise reduction in electronic speckle pattern interferometry fringes by fourth-order Partial Differential Equations

机译：四阶偏微分方程的电子散斑图案干涉测量噪声降低

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Noise reduction is one of the largest problems and biggest difficulties involved in electronic speckle pattern interferometry (ESPI). Although the second-order PDEs denoising method is a useful tool of noise reduction for the ESPI fringe patterns, its main drawback is that the second-order PDE model does not remove impulse noise, a 3×3 mean window filter is generally needed to improve the fringes. For overcome this main drawback, in this paper we apply the fourth-order PDE denoising model to the computer-simulated and experimentally obtained ESPI fringe, respectively. In both tests, the fourth-order PDE denoising model clearly outperforms the second-order PDE denoising model. Experimental results have confirmed that the fourth-order PDE denoising model is capable of removing noise in ESPI fringe images effectively.

机译：降噪是电子散斑图案干涉测量（ESPI）所涉及的最大问题和最大困难之一。虽然二阶PDES去噪方法是ESPI条纹图案的噪声降低的有用工具，但其主要缺点是二阶PDE模型不会除去脉冲噪声，通常需要3×3平均窗口滤波器来改进条纹。为了克服该主要缺点，本文分别将第四阶PDE去噪模式应用于计算机模拟和实验获得的ESPI边缘。在两个测试中，第四阶PDE去噪模型显然优于二阶PDE去噪模型。实验结果证实，第四阶PDE去噪模型能够有效地消除ESPI边缘图像中的噪声。

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《International Congress on High-Speed Photography and Photonics》|2007年||共6页
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Wei Lv; Chen Tang; Wenping Wang; COS-Chinese Optical Society(China); XIOPM-Xian Institute of Optics and Precision Mechanics; Chinese Academy of Sciences(China);
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中图分类高速摄影;
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forth-order partial differential equations; filtering; speckle pattern interferometry fringe images;

机译：发出偏微分方程;滤波;散斑图案干涉测量条纹图像;

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专利

1. New fourth-order partial differential equations for filtering in electronic speckle pattern interferometry fringes [J] . Liyan Cheng, Chen Tang, Si Yan, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第24期

机译：用于电子散斑干涉条纹中滤波的新四阶偏微分方程
2. Nearly preprocessing-free method for skeletonization of gray-scale electronic speckle pattern interferometry fringe patterns via partial differential equations [J] . Chen Tang, Wenjing Lu, Yuanxue Cai, Optics Letters . 2008,第2期

机译：偏微分方程的灰度电子散斑干涉图条纹图案骨架化的几乎无需预处理的方法
3. A shape-preserving oriented partial differential equation based on a new fidelity term for electronic speckle pattern interferometry fringe patterns denoising [J] . Xu Wenjun, Tang Chen, Zheng Tingyue, Optics & Laser Technology . 2018,第期

机译：基于新保真术语的电子散斑图案干涉术边缘图案基于新保真术语的形状保留的面向偏微分方程
4. Noise reduction in electronic speckle pattern interferometry fringes by fourth-order Partial Differential Equations [C] . Wei Lv, Chen Tang, Wenping Wang International Congress on High-Speed Photography and Photonics . 2007

机译：通过四阶偏微分方程减少电子散斑干涉条纹中的噪声
5. Multiplicative noise ratio (MNR) and speckle reduction for synthetic aperture radar (SAR) imagery via non-linear partial differential equations [D] . Allen, Josef DeVaughn 2007

机译：通过非线性偏微分方程对合成孔径雷达（SAR）图像进行乘法噪声比（MNR）和斑点减少
6. Fringe Phase-Shifting Field Based Fuzzy Quotient Space-Oriented Partial Differential Equations Filtering Method for Gaussian Noise-Induced Phase Error [O] . Changzhi Yu, Fang Ji, Junpeng Xue, 2019

机译：基于边缘相移场的高斯噪声相位误差的模糊商空间偏微分方程滤波方法
7. Improvement of measuring accuracy of spatial fringe analysis method using only two speckle patterns in electronic speckle pattern interferometry [O] . Yasuhiko Arai 2014

机译：电子散斑图案干涉法中仅使用两个散斑图案的空间边缘分析方法测量精度的提高

Noise reduction in electronic speckle pattern interferometry fringes by fourth-order Partial Differential Equations

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