基于深度学习的高速移相轮廓法荧光误差抑制

International Conference on Photonics and Optical Engineering and the Annual West China Photonics Conference Pub Date : 2021-01-15 DOI:10.1117/12.2586589

Yang Zhao, Nenqing Lv, Haotian Yu, Jing Han, Lianfa Bai, Dongliang Zheng

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引用次数: 0

摘要

在移相轮廓术的记录过程中，由于光源不稳定引起的光强波动会产生不可忽略的相位误差。更重要的是，采样速度的选择也会影响相位误差的值，甚至高达0.12 rad。为了抑制这一问题，提出了一种基于深度学习的荧光灯误差抑制(dlles)方法，实现荧光灯下的高精度测量。实验表明，采用该方法重建的三维图像形状更加精确。我们的研究将推动利用深度学习技术实现外部光源干扰下的精确三维测量。

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Fluorescent light error suppression for high-speed phase-shifting profilometry based on deep learning

In the recording process of phase-shifting profilometry, intensity fluctuation caused by uorescent light source instability may occur and then introduce a non-ignorable phase error. More importantly, the selection of sampling speed will also affect the value of the phase error, which even up to 0.12 rad. To suppress this problem, a deep learning-based fluorescent light error suppression (DLFLES) method is proposed to achieve high-precise measurement under fluorescent light. Experiments demonstrate that the shapes of the reconstructed 3-D images are more precise using the proposed method. Our research would promote the development of accurate 3-D measurement under the interference of external light sources by using deep learning.

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International Conference on Photonics and Optical Engineering and the Annual West China Photonics Conference

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