[3] Nguyen H, Nguyen D, Wang Z Y et al. Real-time, high-accuracy 3D imaging and shape measurement[J]. Applied Optics, 54, A9-A17(2015).
[5] Zhang S, Huang P S. Novel method for structured light system calibration[J]. Optical Engineering, 45, 083601(2006).
[6] Jia X J, Zhang Z J, Cao F et al. Model and error analysis for coded structured light measurement system[J]. Optical Engineering, 49, 123603(2010).
[8] Da F P, Gai S Y[M]. Fringe projection 3D precision measurement, 132-133(2011).
[10] Moreno D, Taubin G. Simple, accurate, and robust projector-camera calibration. [C]∥2012 Second International Conference on 3D Imaging, Modeling, Processing, Visualization & Transmission, October 13-15, 2012, Zurich, Switzerland. New York: IEEE, 464-471(2012).
[11] Gao W. Flexible method for structured light system calibration[J]. Optical Engineering, 47, 083602(2008).
[12] Wei Z L, Zhong Y X, Yuan C L. Research on the calibration technique of projector in structured light 3D measurement system[J]. Optical Technique, 35, 256-260, 264(2009).
[13] Dai X L, Zhong Y X, Yuan C L et al[J]. Research on projector calibration in one-camera 3-D measurement systems Machinery Design & Manufacture, 2008, 194-196.
[17] Gao H W[M]. Computer based binocular vision, 20-21(2012).
[18] Kaehler A, Kaehler A, Bradski G, Bradski G[M]. 学习OpenCV3, 559-561(2018).
[M]. Learning OpenCV3, 559-561(2018).
[20] Chen R, Xu J, Chen H P et al. Accurate calibration method for camera and projector in fringe patterns measurement system[J]. Applied Optics, 55, 4293-4300(2016).
[21] Bing P, Qian K M, Lei H et al. Phase error analysis and compensation for nonsinusoidal waveforms in phase-shifting digital fringe projection profilometry[J]. Optics Letters, 34, 416-418(2009).