Real-Time 3D Difference Feature Detection Based on Computer-Generated Moire Profilometry

WANG Lin-xi; CAO Yi-ping

OPTICS & OPTOELECTRONIC TECHNOLOGY, Volume. 21, Issue 1, 13(2023)

WANG Lin-xi and CAO Yi-ping

Author Affiliations

[in Chinese]

show less

Abstract Get PDF(in Chinese)

References(17)

[1] [1] Geng J. Structed-light 3D surface imaging: A tutorial［J］. Adv. Opt. Photon., 2011, (3): 128-160.

[2] [2] Gorthi S, Rastogi P. Fringe projection techniques: Whither we are？［J］. Opt. Laser Eng., 2010, 48: 133-140.

[3] [3] Quan C, Chen W, Tay C. Phase-retrieval techniques in fringe-projection proflometry［J］. Opt. Laser Eng., 2010, 48: 235-243.

[4] [4] Zhong K, Li Z, Li R, et al. Pre-calibration-free 3D shape measurement method based on fringe projection［J］. Opt. Express, 2016, 24(13): 14196.

[5] [5] Zhang S, Huang P. High-resolution, real-time three-dimensional shape measurement［J］. Opt. Eng., 2006, 45(12): 1269-1278.

[6] [6] Mitsuo Takeda, Hideki Ina, Seiji Kobayashi. Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry［J］. J. Opt. Soc. Am., 1982, 72: 156-160.

[7] [7] Yue H, Su X, Liu Y. Fourier transform proflometry based on composite structured light pattern［J］. Opt. Laser Technol., 2007, 39: 1170-1175.

[8] [8] Wu Y, Cao Y, Huang Z, et al. Improved composite Fourier transform proflometry［J］. Opt. Laser Technol., 2012, 44(7): 10.

[9] [9] V Srinivasan, H C Liu, M Halioua. Automated phase-measuring profilometry of 3-D diffuse objects［J］. Appl. Opt., 1984, 23: 3105-3108.

[10] [10] L Lu. New approach to improve the accuracy of 3-D shape measurement of moving object using phase shifting profilometry［J］. Opt. Express, 2013, 21(25): 30610-30622.

[12] [12] Wansong Li, Thorsten Bothe, Wolfgang Osten, et al. Object adapted pattern projection—Part I: generation of inverse patterns［J］. Optics and Lasers in Engineering, 2004, 41(1): 31-50.

[14] [14] Bothe T, Li W, von Kopylow C, et al. Object adapted inverse pattern projection-generation, evaluation and applications［C］. SPIE, 2003, 4933: 291-297.

[15] [15] Wang L, Cao Y, Li C, et al. Computer-generated moiré profilometry based on flat image demodulation［J］. Opt. Rev., 2021, 28: 546-556.

[16] [16] Li H, Cao Y, Wan Y, et al. A super-grayscale and real-time computer-generated Moiré profilometry using video grating projection［J］. Sci Rep, 2021, (11): 19882.

[17] [17] Chengmeng Li, Yiping Cao, Yingying Wan, et al. Computer-generated frequency-carrier moire profilometry［J］.Optics Communications, 2021, 501: 127381.

[18] [18] LI Qin, CAO Yiping. An improved rhombus phase unwrapping algorithm［J］. Journal of Optoelectronics Laser, 2019, 30(6): 665-672.

[19] [19] Ma Q. Intrinsic feature revelation of phase-to- height mapping in phase measuring proflometry［J］. Opt. Laser Technol., 2018, 108: 46-52.

CLP Journals

[1] CAO Yi-ping, ZHANG He-chen. Computer-Generated Moiré Profilometry and its Development Trends[J]. OPTICS & OPTOELECTRONIC TECHNOLOGY, 2023, 21(5): 1

[2] YANG Xin, LI Hong-ning, CHEN Hao, ZHAO Hai, GAO Ya-ru. A Method for Reconstructing a Height Map From a Discrete Normal Map[J]. OPTICS & OPTOELECTRONIC TECHNOLOGY, 2023, 21(6): 28

Tools

Get Citation

Copy Citation Text

WANG Lin-xi, CAO Yi-ping. Real-Time 3D Difference Feature Detection Based on Computer-Generated Moire Profilometry[J]. OPTICS & OPTOELECTRONIC TECHNOLOGY, 2023, 21(1): 13

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category:

Received: Aug. 13, 2022

Accepted: --

Published Online: Mar. 22, 2023

The Author Email:

DOI:

CSTR:32186.14.

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology