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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 756-759The Measurement of 3D Object Shape Based on...

The Measurement of 3D Object Shape Based on Fourier Transform Profilometry

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Abstract:

In this paper, we present an optical profilometric technique for 3D shape measurement--Fourier Transform Profilometry (FTP). In contrast to other optical techniques, the grating pattern will in its spatial frequency fields as well as in its space-signal fields which projected onto the object surface and was Fourier-transformed and processed. This technique only requires a single fringe pattern up to no more than two to reproduce 3D object shape. FTP has a much higher sensitivity to the fringe quality than other techniques. We design a system which has a high-resolution system composed of a video projector and a digital camera. A fringe pattern of programming by computer is projected onto the free surface and its diagram is recorded by the camera. The deformed fringe pattern arising from the surface deformations is later compared to the unreformed (reference) one, leading to a phase map from which the free surface can be reconstructed after some series of processes.

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Periodical:

Advanced Materials Research (Volumes 756-759)

Pages:

678-681

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.756-759.678

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Online since:

September 2013

Authors:

Huan Dong

Keywords:

3D Shape Measurement, Fourier Transform Profilometry, Phase Unwrapping

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] M. Idesawa, T. Yatagai, and T. Soma. Scanning moiré method and automatic measurement of 3-D shapes [J]. Appl. Opt. , 16, pp.2152-2162, (1977).

DOI: 10.1364/ao.16.002152

[2] T. Yatagai and M. Idesawa. Moiré and Fringe Projection Techniques [J]. Opt. Laser Eng. 3, pp.73-83, (1982).

[3] Md. Mosarraf Hossain, Gyanendra Sheoran, Varun Kumar, and Chandra Shakher. Contouring of diffused objects using lensless Fourier transform digital moiré holography[J]. Appl. Opt, Vol. 51. pp.5331-5339, (2012).

DOI: 10.1364/ao.51.005331

[4] M. Takeda, K, Motoh. Fourier transform profilometry for the automatic measurement of 3-D object shapes [J]. Appl. Opt, Vol. 22. pp.3977-3982, (1983).

DOI: 10.1364/ao.22.003977

[5] S. Zhang, Recent progresses on real-time 3-D shape measurement using digital fringe projection techniques[J], Opt. LaserEng. 48(2), pp.149-158, (2010).

DOI: 10.1016/j.optlaseng.2009.03.008

[6] S. Zhang, Flexible3-D shape measurement using projector defocusing: Extended measurement range, Opt. Lett. 35 (7), pp.931-933, (2010).

DOI: 10.1364/ol.35.000934

[7] Liang-Chia Chen, Xuan Loc Nguyen, Fu-Hao Zhang and Tzeng-yow Lin. High-speed Fourier transform profilometry for reconstructing objects having arbitrary surface colors[J]. L. Opt. 12. pp.95-103. (2010).

DOI: 10.1088/2040-8978/12/9/095502

[8] Xian-Yu Su, Wenjing Zhou. Optics and Laser in Engineering[J]. Applied Optics. pp.263-284, (2001).

[9] M. Chang, C. -S. Ho. Phase-measuring Profllometry Using Sinusoidal Grating[J]. Experimental Mechanics 33, pp.117-122, (1993).

DOI: 10.1007/bf02322487

[10] Xian-Yu Su, Wen-Sen Zhou, G. von Bally, D. Vukieevic. Automated phase measuring profilometry using Defoeased projection of a Ronchi grating [J]. Optics Communications, 94, pp. 56l-573, (1992).

DOI: 10.1016/0030-4018(92)90606-r

[11] Xianyu Su, Likun Su, New 3D Profilometry based on modulation measurement[C]. Proceedings of SPIE, 3558, pp.1-7, (1998).

[12] Xianyu Su, Likun Su, Wansong Li. A new Fourier transform profilometry based on modulation measurement[C]. Proceedings of SPIE, 3749 , pp.438-439, (1999).

[13] Likun Su, Xianyu Su, Wansong Li. Application of modulation measurement profilometry to objects' with surface holes [J]. Applied Optics, 38(7), pp.1153-1158, (1999).

DOI: 10.1364/ao.38.001153

[14] S．Toyooka，M. Tominaga．Spatial fringe scanning for optical phase measurement [J]. Optics Communications. 51 (2), pp.68-70, (1984).

[15] S. Toyooka, Y. Lwasa. Automatic profllometry of 3-D diffuse objects by spatial phase detection．Applied Optics [J], 25 (10), pp.1630-1633, (1986).

[16] Wenjing Chen, HuYang, Xianyu Su, et al. Error Caused by Sampling in Fourier transform profilometry [J]. Opt. Eng. 38(6). pp.1029-1034, (1999).

DOI: 10.1117/1.602146