Abstract

The grating projection method with phase-shifting technique is very useful in measuring the 3-dimensional (3D) shape with high accuracy and speed. In this work, we have developed an ultra high-speed digital laser grating projection system using a high-power laser diode and a highsensitivity CMOS camera. With our system, the optical measurement required to find out the profile of a 3D object could be carried out within 2.6 ms, which is a significant (~10 times) improvement compared with those of the previous studies.

© 2009 Optical Society of Korea

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  1. F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39, 10-22 (2000).
    [CrossRef]
  2. J. W. Kang and C. K. Hong, “Three dimensional shape measurement of a micro Fresnel lens with in-line phaseshifting digital holographic microscopy,” J. Opt. Soc. Korea 10, 178-183 (2006).
    [CrossRef]
  3. T. Yoshizawa and T. Tomosawa, “Shadow moire topography by means of phase-shift method,” Opt. Eng. 32, 1668-1674 (1993).
    [CrossRef]
  4. W. J. Ryu, Y. J. Kang, S. H. Baik, and S. J. Kang, “A study on the 3-D measurement by using digital projection moire method,” Optik 119, 453-458 (2008).
    [CrossRef]
  5. R. C. Daley and L. G. Hassebrook, “Channel capacity model of binary encoded structured light-stripe illumination,” Appl. Opt. 37, 3689-3696 (1998).
    [CrossRef]
  6. A. G. Wiley and K. W. Wong, “Geometric calibration of zoom lenses for computer vision metrology,” Photogramm. Eng. Remote Sens. 61, 69-74 (1995).
  7. L. C. Chen and C. C. Liao, “Calibration of 3D surface profilometry using digital fringe projection,” Meas. Sci. Technol. 16, 1554-1566 (2005).
    [CrossRef]
  8. J. Pan, P. S. Huang, and F. P. Chiang, “Color phaseshifting technique for three-dimensional shape measurement,” Opt. Eng. 45, 013602 (2006).
    [CrossRef]
  9. H. Liu, G. Lu, S. Wu, S. Yin, and F. T. S. Yu, “Speckle-induced phase error in laser-based phase-shifting projected fringe profilometry,” J. Opt. Soc. Am. 16, 1484-1495 (1999).
    [CrossRef]
  10. C. Xiaobo, X. J. Tong, J. Tao, and J. Ye, “Research and development of an accurate 3D shape measurement system based on fringe projection: model analysis and performance evaluation,” Precision Eng. 32, 215-221 (2008).
    [CrossRef]
  11. S. Zhang D. Royer, and S. T. Yau, “GPU-assisted high-resolution, real-time 3-D shape measurement,” Opt. Exp. 14, 9120-9129 (2006).
    [CrossRef]
  12. F. Tsalakanidou, F. Forster, S. Malassiotis, and M. G. Strintzis, “Real-time acquisition of depth and color images using structured light and its application to 3D face recognition,” Real-Time Imaging 11, 358-369 (2005).
    [CrossRef]
  13. D. Kim, B. J. Baek, Y. D. Kim, and B. Javidi, “3D nano object recognition based on phase measurement technique,” J. Opt. Soc. Korea 11, 108-112 (2007).
    [CrossRef]
  14. D. Kim and Y. J. Cho, “3-D surface profile measurement using an acousto-optic tunable filter based spectral phase shifting technique,” J. Opt. Soc. Korea 12, 281-287 (2008).
    [CrossRef]
  15. S. Zhang and P. S. Huang, “Phase error compensation for a 3-D shape measurement system based on the phase-shifting method,” Opt. Eng. 46, 063601 (2007).
    [CrossRef]
  16. Y.-C. Park, C. G. Park, S. J. Ahn, M.-H. Kang, and S. Ahn, “A high-speed digital laser grating projection system for the measurement of 3-dimensional shapes,” J. Opt. Soc. Korea 13, 251-255 (2009).
    [CrossRef]
  17. X. Su and Q. Zhang, “Dynamic 3-D shape measurement method : a review,” Optics and Lasers in Engineering (to be published, doi:10.1016/j.optlaseng.2009.03.012).
    [CrossRef]
  18. J. Li, L. G. Hassebrook, and C. Guan, “Optimized two-frequency phase measuring profilometry light-sensor temporal-noise sensitivity,” J. Opt. Soc. Am. A 20, 106-115 (2003).
    [CrossRef]
  19. S.-W. Kim, J.-T. Oh, M.-S. Jung, and Y.-B. Choi, “Two-wavelength phase shifting projection moire topography for measurement of three-dimensional profiles with high step discontinuities,” J. KSME 23, 1129-1138 (1999).
  20. S. Zhang and S.-T. Yau, “High-resolution, real-time 3D absolute coordinate measurement based on s phaseshifting method,” Opt. Exp. 14, 2644-2649 (2006).
    [CrossRef]
  21. Z. Zhang, C. E. Towers, and D. P. Towers, “Time efficient color fringe projection system for 3D shape and color using optimum 3-frequency selection,” Opt. Exp. 14, 6444-6455 (2006).
    [CrossRef]

2009 (2)

Y.-C. Park, C. G. Park, S. J. Ahn, M.-H. Kang, and S. Ahn, “A high-speed digital laser grating projection system for the measurement of 3-dimensional shapes,” J. Opt. Soc. Korea 13, 251-255 (2009).
[CrossRef]

X. Su and Q. Zhang, “Dynamic 3-D shape measurement method : a review,” Optics and Lasers in Engineering (to be published, doi:10.1016/j.optlaseng.2009.03.012).
[CrossRef]

2008 (3)

C. Xiaobo, X. J. Tong, J. Tao, and J. Ye, “Research and development of an accurate 3D shape measurement system based on fringe projection: model analysis and performance evaluation,” Precision Eng. 32, 215-221 (2008).
[CrossRef]

D. Kim and Y. J. Cho, “3-D surface profile measurement using an acousto-optic tunable filter based spectral phase shifting technique,” J. Opt. Soc. Korea 12, 281-287 (2008).
[CrossRef]

W. J. Ryu, Y. J. Kang, S. H. Baik, and S. J. Kang, “A study on the 3-D measurement by using digital projection moire method,” Optik 119, 453-458 (2008).
[CrossRef]

2007 (2)

S. Zhang and P. S. Huang, “Phase error compensation for a 3-D shape measurement system based on the phase-shifting method,” Opt. Eng. 46, 063601 (2007).
[CrossRef]

D. Kim, B. J. Baek, Y. D. Kim, and B. Javidi, “3D nano object recognition based on phase measurement technique,” J. Opt. Soc. Korea 11, 108-112 (2007).
[CrossRef]

2006 (5)

S. Zhang and S.-T. Yau, “High-resolution, real-time 3D absolute coordinate measurement based on s phaseshifting method,” Opt. Exp. 14, 2644-2649 (2006).
[CrossRef]

Z. Zhang, C. E. Towers, and D. P. Towers, “Time efficient color fringe projection system for 3D shape and color using optimum 3-frequency selection,” Opt. Exp. 14, 6444-6455 (2006).
[CrossRef]

S. Zhang D. Royer, and S. T. Yau, “GPU-assisted high-resolution, real-time 3-D shape measurement,” Opt. Exp. 14, 9120-9129 (2006).
[CrossRef]

J. W. Kang and C. K. Hong, “Three dimensional shape measurement of a micro Fresnel lens with in-line phaseshifting digital holographic microscopy,” J. Opt. Soc. Korea 10, 178-183 (2006).
[CrossRef]

J. Pan, P. S. Huang, and F. P. Chiang, “Color phaseshifting technique for three-dimensional shape measurement,” Opt. Eng. 45, 013602 (2006).
[CrossRef]

2005 (2)

L. C. Chen and C. C. Liao, “Calibration of 3D surface profilometry using digital fringe projection,” Meas. Sci. Technol. 16, 1554-1566 (2005).
[CrossRef]

F. Tsalakanidou, F. Forster, S. Malassiotis, and M. G. Strintzis, “Real-time acquisition of depth and color images using structured light and its application to 3D face recognition,” Real-Time Imaging 11, 358-369 (2005).
[CrossRef]

2003 (1)

J. Li, L. G. Hassebrook, and C. Guan, “Optimized two-frequency phase measuring profilometry light-sensor temporal-noise sensitivity,” J. Opt. Soc. Am. A 20, 106-115 (2003).
[CrossRef]

2000 (1)

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39, 10-22 (2000).
[CrossRef]

1999 (2)

H. Liu, G. Lu, S. Wu, S. Yin, and F. T. S. Yu, “Speckle-induced phase error in laser-based phase-shifting projected fringe profilometry,” J. Opt. Soc. Am. 16, 1484-1495 (1999).
[CrossRef]

S.-W. Kim, J.-T. Oh, M.-S. Jung, and Y.-B. Choi, “Two-wavelength phase shifting projection moire topography for measurement of three-dimensional profiles with high step discontinuities,” J. KSME 23, 1129-1138 (1999).

1998 (1)

R. C. Daley and L. G. Hassebrook, “Channel capacity model of binary encoded structured light-stripe illumination,” Appl. Opt. 37, 3689-3696 (1998).
[CrossRef]

1995 (1)

A. G. Wiley and K. W. Wong, “Geometric calibration of zoom lenses for computer vision metrology,” Photogramm. Eng. Remote Sens. 61, 69-74 (1995).

1993 (1)

T. Yoshizawa and T. Tomosawa, “Shadow moire topography by means of phase-shift method,” Opt. Eng. 32, 1668-1674 (1993).
[CrossRef]

Applied Optics (1)

R. C. Daley and L. G. Hassebrook, “Channel capacity model of binary encoded structured light-stripe illumination,” Appl. Opt. 37, 3689-3696 (1998).
[CrossRef]

Journal of the Optical Society of America A (2)

H. Liu, G. Lu, S. Wu, S. Yin, and F. T. S. Yu, “Speckle-induced phase error in laser-based phase-shifting projected fringe profilometry,” J. Opt. Soc. Am. 16, 1484-1495 (1999).
[CrossRef]

J. Li, L. G. Hassebrook, and C. Guan, “Optimized two-frequency phase measuring profilometry light-sensor temporal-noise sensitivity,” J. Opt. Soc. Am. A 20, 106-115 (2003).
[CrossRef]

Journal of the Optical Society of Korea (4)

Y.-C. Park, C. G. Park, S. J. Ahn, M.-H. Kang, and S. Ahn, “A high-speed digital laser grating projection system for the measurement of 3-dimensional shapes,” J. Opt. Soc. Korea 13, 251-255 (2009).
[CrossRef]

D. Kim, B. J. Baek, Y. D. Kim, and B. Javidi, “3D nano object recognition based on phase measurement technique,” J. Opt. Soc. Korea 11, 108-112 (2007).
[CrossRef]

D. Kim and Y. J. Cho, “3-D surface profile measurement using an acousto-optic tunable filter based spectral phase shifting technique,” J. Opt. Soc. Korea 12, 281-287 (2008).
[CrossRef]

J. W. Kang and C. K. Hong, “Three dimensional shape measurement of a micro Fresnel lens with in-line phaseshifting digital holographic microscopy,” J. Opt. Soc. Korea 10, 178-183 (2006).
[CrossRef]

Measurement Science and Technology (1)

L. C. Chen and C. C. Liao, “Calibration of 3D surface profilometry using digital fringe projection,” Meas. Sci. Technol. 16, 1554-1566 (2005).
[CrossRef]

Optical Engineering (4)

J. Pan, P. S. Huang, and F. P. Chiang, “Color phaseshifting technique for three-dimensional shape measurement,” Opt. Eng. 45, 013602 (2006).
[CrossRef]

T. Yoshizawa and T. Tomosawa, “Shadow moire topography by means of phase-shift method,” Opt. Eng. 32, 1668-1674 (1993).
[CrossRef]

S. Zhang and P. S. Huang, “Phase error compensation for a 3-D shape measurement system based on the phase-shifting method,” Opt. Eng. 46, 063601 (2007).
[CrossRef]

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39, 10-22 (2000).
[CrossRef]

Optics and Lasers in Engineering (1)

X. Su and Q. Zhang, “Dynamic 3-D shape measurement method : a review,” Optics and Lasers in Engineering (to be published, doi:10.1016/j.optlaseng.2009.03.012).
[CrossRef]

Optics Express (3)

S. Zhang D. Royer, and S. T. Yau, “GPU-assisted high-resolution, real-time 3-D shape measurement,” Opt. Exp. 14, 9120-9129 (2006).
[CrossRef]

S. Zhang and S.-T. Yau, “High-resolution, real-time 3D absolute coordinate measurement based on s phaseshifting method,” Opt. Exp. 14, 2644-2649 (2006).
[CrossRef]

Z. Zhang, C. E. Towers, and D. P. Towers, “Time efficient color fringe projection system for 3D shape and color using optimum 3-frequency selection,” Opt. Exp. 14, 6444-6455 (2006).
[CrossRef]

Optik - International Journal for Light and Electron Optics (1)

W. J. Ryu, Y. J. Kang, S. H. Baik, and S. J. Kang, “A study on the 3-D measurement by using digital projection moire method,” Optik 119, 453-458 (2008).
[CrossRef]

Photogrammetric Engineering & Remote Sensing (1)

A. G. Wiley and K. W. Wong, “Geometric calibration of zoom lenses for computer vision metrology,” Photogramm. Eng. Remote Sens. 61, 69-74 (1995).

Precision Engineering (1)

C. Xiaobo, X. J. Tong, J. Tao, and J. Ye, “Research and development of an accurate 3D shape measurement system based on fringe projection: model analysis and performance evaluation,” Precision Eng. 32, 215-221 (2008).
[CrossRef]

Real-Time Imaging (1)

F. Tsalakanidou, F. Forster, S. Malassiotis, and M. G. Strintzis, “Real-time acquisition of depth and color images using structured light and its application to 3D face recognition,” Real-Time Imaging 11, 358-369 (2005).
[CrossRef]

Transactions of the Korean Society of Mechanical Engineers A (1)

S.-W. Kim, J.-T. Oh, M.-S. Jung, and Y.-B. Choi, “Two-wavelength phase shifting projection moire topography for measurement of three-dimensional profiles with high step discontinuities,” J. KSME 23, 1129-1138 (1999).

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