A complementary binary code based phase unwrapping method

Phase unwrapping is used to establish the mapping relationship between camera and projector, which is one of the key technologies in fringe projection profilometry (FPP) based three-dimensional (3D) measurement. Although complementary Gray code assisted phase unwrapping technology can get a good res...

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Veröffentlicht in:	Optoelectronics letters 2024-04, Vol.20 (4), p.228-233
Hauptverfasser:	Li, Wenjie, Sun, Huanghe, Li, Fuquan, Wang, Beibei, Wang, Haijian, Gao, Xinyu
Format:	Artikel
Sprache:	eng
Schlagworte:	Binary codes Codes Lasers Optical Devices Optics Phase unwrapping Photonics Physics Physics and Astronomy
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container_title	Optoelectronics letters
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creator	Li, Wenjie Sun, Huanghe Li, Fuquan Wang, Beibei Wang, Haijian Gao, Xinyu
description	Phase unwrapping is used to establish the mapping relationship between camera and projector, which is one of the key technologies in fringe projection profilometry (FPP) based three-dimensional (3D) measurement. Although complementary Gray code assisted phase unwrapping technology can get a good result on the periodic boundary, it needs more coded images to obtain a high frequency fringe. Aiming at this problem, a complementary binary code assisted phase unwrapping method is proposed in this paper. According to the periodic consistency between the wrapping phase and binary codes, the coded patterns are generated. Then the connected domain strategy is performed to calculate the fringe orders using the positive and negative image binaryzation. To avoid the mistake near the periodic boundary, complementary binary code inspired by the complementary Gray code is proposed. The fringe order correction is also discussed for different situations in the first measured period. Only two binary images are needed in the proposed method, and the fringe frequency is not limited. Both the simulation and experiment have verified the feasibility of proposed method.
doi_str_mv	10.1007/s11801-024-3153-y
format	Article
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subjects	Binary codes Codes Lasers Optical Devices Optics Phase unwrapping Photonics Physics Physics and Astronomy
title	A complementary binary code based phase unwrapping method
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