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Dynamic 3-D measurement based on fringe-to-fringe transformation using deep learning

Haotian Yu, Xiaoyu Chen, Zhao Zhang, Chao Zuo, Yi Zhang, Dongliang Zheng, Jing Han

2020Optics Express85 citationsDOIOpen Access PDF

Abstract

Fringe projection profilometry (FPP) has become increasingly important in dynamic 3-D shape measurement. In FPP, it is necessary to retrieve the phase of the measured object before shape profiling. However, traditional phase retrieval techniques often require a large number of fringes, which may generate motion-induced error for dynamic objects. In this paper, a novel phase retrieval technique based on deep learning is proposed, which uses an end-to-end deep convolution neural network to transform a single or two fringes into the phase retrieval required fringes. When the object's surface is located in a restricted depth, the presented network only requires a single fringe as the input, which otherwise requires two fringes in an unrestricted depth. The proposed phase retrieval technique is first theoretically analyzed, and then numerically and experimentally verified on its applicability for dynamic 3-D measurement.

Topics & Concepts

Phase retrievalComputer scienceArtificial intelligenceStructured-light 3D scannerProfilometerConvolution (computer science)Deep learningPhase (matter)Artificial neural networkOpticsAlgorithmProjection (relational algebra)Image processingTransformation (genetics)Computer visionObject (grammar)Convolutional neural networkFourier transformPattern recognition (psychology)Fresnel diffractionSpatial frequencyZernike polynomialsPhase unwrappingSignal processingImage retrievalSurface (topology)InterferometryVisualizationOptical measurement and interference techniquesAdvanced X-ray Imaging TechniquesDigital Holography and Microscopy
Dynamic 3-D measurement based on fringe-to-fringe transformation using deep learning | Litcius