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3-D Measurement Method for Multireflectivity Scenes Based on Nonlinear Fringe Projection Intensity Adjustment

Zheng Sun, Yi Jin, Minghui Duan, Xin Fan, Changan Zhu, Jinjin Zheng

2021IEEE Transactions on Instrumentation and Measurement27 citationsDOI

Abstract

The 3-D measurement methods based on fringe projection intensity adjustment (FPIA) have been widely adopted to measure the multireflectivity scenes. However, the signal-to-noise ratios (SNRs) of the captured fringe patterns in the FPIA-based methods are reduced because of a large range of reflectivity variations (LRRVs). In our research, a reflection model and a crosstalk model are built to analyze the disturbances induced by LRRVs on the SNRs in the captured fringe patterns, and then, a 3-D measurement method based on nonlinear FPIA (NLFPIA) is proposed to alleviate the LRRV-induced disturbances and improve the measurement accuracy. Moreover, to improve the efficiency of the proposed 3-D measurement method, we present a cyclic utilization of fringe patterns (CUFPs) technique to decrease the number of projection patterns. Experimental results show that the proposed NLFPIA-based 3-D measurement method reduces the root-mean-square error (RMSE) in the measurements of the two standard ceramic geometries by 52.9845% and 36.6393% compared with the FPIA-based method.

Topics & Concepts

Projection (relational algebra)Nonlinear systemMean squared errorStructured-light 3D scannerOpticsObservational errorSystem of measurementAccuracy and precisionIntensity (physics)Range (aeronautics)Computer scienceMathematicsArtificial intelligenceAlgorithmStatisticsEngineeringPhysicsAstronomyQuantum mechanicsScannerAerospace engineeringOptical measurement and interference techniquesImage Processing Techniques and Applications3D Surveying and Cultural Heritage
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