Fast fringe projection profilometry using 3 + 1 phase retrieval strategy and fringe order correction

Fanfei Li; Jingcheng Hu; Shaohui Zhang; Yao Hu; Chenxu Xia; Qun Hao

doi:10.1364/AO.476680

Fast fringe projection profilometry using 3 + 1 phase retrieval strategy and fringe order correction

Fanfei Li, Jingcheng Hu, Shaohui Zhang^*, Yao Hu, Chenxu Xia, Qun Hao

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Fringe projection profilometry (FPP) has attracted wide attention in optical 3D measurement field for its high resolution, high accuracy, and simple system construction. However, the inherent requirements of FPP’s measurement speed and accuracy are contradictory. We adopt a 3 + 1 phase retrieval strategy combining phase shift and the Hilbert transform algorithm to achieve high-speed, high-precision simultaneous measurements with only four binary fringe patterns. Furthermore, when using temporal phase unwrapping, fringe order errors (FOEs) are inevitable. Although these FOEs do not affect neighboring pixels, they are brought into the final point cloud coordinates by the absolute phase value. We propose a fringe order correction method to eliminate FOEs. The feasibility and effectiveness of this method are verified by the experimental results.

Original language	English
Pages (from-to)	348-356
Number of pages	9
Journal	Applied Optics
Volume	62
Issue number	2
DOIs	https://doi.org/10.1364/AO.476680
Publication status	Published - 10 Jan 2023

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title = "Fast fringe projection profilometry using 3 + 1 phase retrieval strategy and fringe order correction",

abstract = "Fringe projection profilometry (FPP) has attracted wide attention in optical 3D measurement field for its high resolution, high accuracy, and simple system construction. However, the inherent requirements of FPP{\textquoteright}s measurement speed and accuracy are contradictory. We adopt a 3 + 1 phase retrieval strategy combining phase shift and the Hilbert transform algorithm to achieve high-speed, high-precision simultaneous measurements with only four binary fringe patterns. Furthermore, when using temporal phase unwrapping, fringe order errors (FOEs) are inevitable. Although these FOEs do not affect neighboring pixels, they are brought into the final point cloud coordinates by the absolute phase value. We propose a fringe order correction method to eliminate FOEs. The feasibility and effectiveness of this method are verified by the experimental results.",

author = "Fanfei Li and Jingcheng Hu and Shaohui Zhang and Yao Hu and Chenxu Xia and Qun Hao",

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T1 - Fast fringe projection profilometry using 3 + 1 phase retrieval strategy and fringe order correction

AU - Li, Fanfei

AU - Hu, Jingcheng

AU - Zhang, Shaohui

AU - Hu, Yao

AU - Xia, Chenxu

AU - Hao, Qun

PY - 2023/1/10

Y1 - 2023/1/10

N2 - Fringe projection profilometry (FPP) has attracted wide attention in optical 3D measurement field for its high resolution, high accuracy, and simple system construction. However, the inherent requirements of FPP’s measurement speed and accuracy are contradictory. We adopt a 3 + 1 phase retrieval strategy combining phase shift and the Hilbert transform algorithm to achieve high-speed, high-precision simultaneous measurements with only four binary fringe patterns. Furthermore, when using temporal phase unwrapping, fringe order errors (FOEs) are inevitable. Although these FOEs do not affect neighboring pixels, they are brought into the final point cloud coordinates by the absolute phase value. We propose a fringe order correction method to eliminate FOEs. The feasibility and effectiveness of this method are verified by the experimental results.

AB - Fringe projection profilometry (FPP) has attracted wide attention in optical 3D measurement field for its high resolution, high accuracy, and simple system construction. However, the inherent requirements of FPP’s measurement speed and accuracy are contradictory. We adopt a 3 + 1 phase retrieval strategy combining phase shift and the Hilbert transform algorithm to achieve high-speed, high-precision simultaneous measurements with only four binary fringe patterns. Furthermore, when using temporal phase unwrapping, fringe order errors (FOEs) are inevitable. Although these FOEs do not affect neighboring pixels, they are brought into the final point cloud coordinates by the absolute phase value. We propose a fringe order correction method to eliminate FOEs. The feasibility and effectiveness of this method are verified by the experimental results.

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DO - 10.1364/AO.476680

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SN - 1559-128X

VL - 62

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JO - Applied Optics

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Fast fringe projection profilometry using 3 + 1 phase retrieval strategy and fringe order correction

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