Fringe pattern inpainting based on dual-exposure fused fringe guiding CNN denoiser prior

IF 0.7 4区 物理与天体物理 Q4 OPTICS
Optica Applicata Pub Date : 2022-01-01 DOI:10.37190/oa220203
Peng Guangze, Chen Wenjing
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引用次数: 0

Abstract

The intensity of some pixels of the captured fringe will be saturated when fringe projection profilometry is used to measure objects with high reflectivity, which will significantly affect the reconstruction of the measured object. In this paper, we propose a fringe pattern inpainting method based on the convolutional neural network (CNN) denoiser prior guided by additional information from a fringe captured in short exposure time. First, a binary mask obtained by Otsu algorithm from the modulation information of the short exposure fringe is used to detect the high-saturation region in the normal exposure fringe. Then, the corrected gray-scales of the region of the short exposure fringe selected by the mask are inserted in the saturated region of the normal fringe to form an initial fringe for iteration. At last, fringe pattern inpainting is achieved by using a CNN denoiser prior. The correct phase can be reconstructed from the inpainted fringes. The computer simulation and experiments verify the effectiveness of the proposed method.
基于双曝光融合条纹引导CNN去噪先验的条纹图像绘制
在用条纹投影轮廓法测量高反射率物体时,捕获的条纹中某些像素的强度会饱和,这将严重影响被测物体的重建。在本文中,我们提出了一种基于卷积神经网络(CNN)去噪的方法,该方法由短曝光时间内捕获的条纹的附加信息先验引导。首先,利用Otsu算法从短曝光条纹的调制信息得到二值掩模,检测正常曝光条纹中的高饱和区域;然后,将掩模选择的短曝光条纹区域的校正灰度插入正常条纹的饱和区域,形成初始条纹进行迭代。最后,利用CNN去噪先验实现条纹图像的图像绘制。正确的相位可以从绘制的条纹重建。计算机仿真和实验验证了该方法的有效性。
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来源期刊
Optica Applicata
Optica Applicata 物理-光学
CiteScore
1.00
自引率
16.70%
发文量
21
审稿时长
4 months
期刊介绍: Acoustooptics, atmospheric and ocean optics, atomic and molecular optics, coherence and statistical optics, biooptics, colorimetry, diffraction and gratings, ellipsometry and polarimetry, fiber optics and optical communication, Fourier optics, holography, integrated optics, lasers and their applications, light detectors, light and electron beams, light sources, liquid crystals, medical optics, metamaterials, microoptics, nonlinear optics, optical and electron microscopy, optical computing, optical design and fabrication, optical imaging, optical instrumentation, optical materials, optical measurements, optical modulation, optical properties of solids and thin films, optical sensing, optical systems and their elements, optical trapping, optometry, photoelasticity, photonic crystals, photonic crystal fibers, photonic devices, physical optics, quantum optics, slow and fast light, spectroscopy, storage and processing of optical information, ultrafast optics.
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