High-Frame-Rate Structured Light 3-D Vision for   Fast Moving Objects

Yongjiu Liu; Hao  Gao; Qingyi Gu; Tadayoshi Aoyama; Takeshi Takaki; Idaku Ishii

doi:10.20965/jrm.2014.p0311

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JRM Vol.26 No.3 pp. 311-320

doi: 10.20965/jrm.2014.p0311

(2014)

Paper:

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High-Frame-Rate Structured Light 3-D Vision for Fast Moving Objects

Yongjiu Liu^,,, Hao Gao^, Qingyi Gu^,
Tadayoshi Aoyama^, Takeshi Takaki^, and Idaku Ishii^***

^*University of Science and Technology of China, Hefei, Anhui 230026, China

^**Institute of Intelligent Machines, Chinese Academy of Sciences, Hefei, Anhui 230031, China

^***Hiroshima University, 1-4-1 Kagamiyama, Higashihiroshima, Hiroshima 739-8527, Japan

Received:

November 1, 2013

Accepted:

January 30, 2014

Published:

June 20, 2014

Keywords:

coded structured light, high-speed vision, shape measurement, motion-compensation, real-time 3-D acquisition

Abstract

HFR 3D vision system

This paper presents a fast motion-compensated structured-light vision system that realizes 3-D shape measurement at 500 fps using a high-frame-rate camera-projector system. Multiple light patterns with an 8-bit gray code, are projected on the measured scene at 1000 fps, and are processed in real time for generating 512 × 512 depth images at 500 fps by using the parallel processing of a motion-compensated structured-light method on a GPU board. Several experiments were performed on fast-moving 3-D objects using the proposed method.

Cite this article as:

Y. Liu, H. Gao, Q. Gu, T. Aoyama, T. Takaki, and I. Ishii, “High-Frame-Rate Structured Light 3-D Vision for Fast Moving Objects,” J. Robot. Mechatron., Vol.26 No.3, pp. 311-320, 2014.

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References

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[2] J. Pagès, J. Salvi, C. Collewet, and J. Forest, “Optimised de bruijn patterns for one-shot shape acquisition,” Image and Vision Computing, Vol.23, No.8, pp. 707-720, 2005.
[3] K. Sakashita, Y. Yagi, R. Sagawa, R. Furukawa, and H. Kawasaki, “A system for capturing textured 3d shapes based on one-shot grid pattern with multi-band camera and infrared projector,” 2011 Int. Conf. on 3D Imaging, Modeling, Processing, Visualization and Transmission (3DIMPVT), pp. 49-56, 2011.
[4] Z. Zhang, “Microsoft kinect sensor and its effect,” Multimedia, IEEE, Vol.19, No.2, pp. 4-10, 2012.
[5] I. Ishii, T. Koike, H. Gao, and T. Takaki, “Fast 3d shape measurement using structured light projection for a one-directionally moving object,” IECON 2011-37th Annual Conf. on IEEE Industrial Electronics Society, pp. 135-140, 2011.
[6] H. Yang, Q. Gu, T. Aoyama, T. Takaki, and I. Ishii, “Realtime modal analysis of shell-shaped objects using high-frame-rate structured-light-based vision,” Proc. the 31st IMAC, A Conf. and Exposition on Structural Dynamics, pp. 517-523, 2013.
[7] N. Karpinsky and S. Zhang, “High-resolution, real-time 3D imaging with fringe analysis,” J. of Real-Time Image Processing, Vol.7, No.1, pp. 55-66, 2012.
[8] H. Gao, T. Takaki, and I. Ishii, “Gpu-based real-time structured light 3d scanner at 500 fps,” Proc. of SPIE, Vol.8437. p. 84370J-1, 2012.
[9] I. Ishii, T. Tatebe, Q. Gu, Y. Moriue, T. Takaki, and K. Tajima, “2000 fps real-time vision system with high-frame-rate video recording,” 2010 IEEE Int. Conf. on Robotics and Automation (ICRA), pp. 1536-1541, 2010.
[10] S. Inokuchi, K. Sato, and F.Matsuda, “Range imaging system for 3-d object recognition,” Proc. of the Int. Conf. on Pattern Recognition, pp. 806-808, 1984.
[11] D. Moreno and G. Taubin, “Simple, Accurate, and Robust Projector-Camera Calibration,” 2012 Second Int. Conf. on 3D Imaging, Modeling, Processing, Visualization and Transmission (3DIMPVT), pp. 464-471, 2012.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] J. L. Posdamer and M. Altschuler, “Surface measurement by spaceencoded projected beam systems,” Computer graphics and image processing, Vol.18, No.1, pp. 1-17, 1982.

[2] [2] J. Pagès, J. Salvi, C. Collewet, and J. Forest, “Optimised de bruijn patterns for one-shot shape acquisition,” Image and Vision Computing, Vol.23, No.8, pp. 707-720, 2005.

[3] [3] K. Sakashita, Y. Yagi, R. Sagawa, R. Furukawa, and H. Kawasaki, “A system for capturing textured 3d shapes based on one-shot grid pattern with multi-band camera and infrared projector,” 2011 Int. Conf. on 3D Imaging, Modeling, Processing, Visualization and Transmission (3DIMPVT), pp. 49-56, 2011.

[4] [4] Z. Zhang, “Microsoft kinect sensor and its effect,” Multimedia, IEEE, Vol.19, No.2, pp. 4-10, 2012.

[5] [5] I. Ishii, T. Koike, H. Gao, and T. Takaki, “Fast 3d shape measurement using structured light projection for a one-directionally moving object,” IECON 2011-37th Annual Conf. on IEEE Industrial Electronics Society, pp. 135-140, 2011.

[6] [6] H. Yang, Q. Gu, T. Aoyama, T. Takaki, and I. Ishii, “Realtime modal analysis of shell-shaped objects using high-frame-rate structured-light-based vision,” Proc. the 31st IMAC, A Conf. and Exposition on Structural Dynamics, pp. 517-523, 2013.

[7] [7] N. Karpinsky and S. Zhang, “High-resolution, real-time 3D imaging with fringe analysis,” J. of Real-Time Image Processing, Vol.7, No.1, pp. 55-66, 2012.

[8] [8] H. Gao, T. Takaki, and I. Ishii, “Gpu-based real-time structured light 3d scanner at 500 fps,” Proc. of SPIE, Vol.8437. p. 84370J-1, 2012.

[9] [9] I. Ishii, T. Tatebe, Q. Gu, Y. Moriue, T. Takaki, and K. Tajima, “2000 fps real-time vision system with high-frame-rate video recording,” 2010 IEEE Int. Conf. on Robotics and Automation (ICRA), pp. 1536-1541, 2010.

[10] [10] S. Inokuchi, K. Sato, and F.Matsuda, “Range imaging system for 3-d object recognition,” Proc. of the Int. Conf. on Pattern Recognition, pp. 806-808, 1984.

[11] [11] D. Moreno and G. Taubin, “Simple, Accurate, and Robust Projector-Camera Calibration,” 2012 Second Int. Conf. on 3D Imaging, Modeling, Processing, Visualization and Transmission (3DIMPVT), pp. 464-471, 2012.

High-Frame-Rate Structured Light 3-D Vision for Fast Moving Objects

Yongjiu Liu*,**,***, Hao Gao***, Qingyi Gu***, Tadayoshi Aoyama***, Takeshi Takaki***, and Idaku Ishii***

Yongjiu Liu^,,, Hao Gao^, Qingyi Gu^,
Tadayoshi Aoyama^, Takeshi Takaki^, and Idaku Ishii^***