[1] Zhang S. Recent progresses on real-time 3-D shape measurement using digital fringe projection techniques [J]. Opt. Laser Eng(S0143-8166), 2010, 48: 149-158.
[2] DA Feipeng, HUANG Hao. A novel color fringe projection based Fourier transform 3D shape measurement method [J]. Optik(S0030-4026), 2012, 123(24): 2233-2237.
[4] GAO Chengyong, WANG Yunshan, ZHOU Canlin. Study of the Three-Undecided Step Length Phase Shifting Technique for Phase Measurement Profilometry [J]. Journal of Optoelectronics Laser, 2004, 15(8): 967-970.
[5] WANG Tao, CHEN Wenjing. Using Wavelet Transform to Actualize S Transform Profilometry Based on Structured Light Projection [J]. Laser & Optoelectronics Progress, 2012, 49(6): 105-113.
[6] YANG Fu-jun, GENG Min, DAI Mei-ling, et al. 3D shape measurement of discontinuous objects based on single frequency fringe projection in 4-step phase shifting profilemetry [J]. Journal of Optoelectronics Laser, 2012, 23(8): 1535-1538.
[7] Wang Y, Zhang S, Oliver J H. 3D shape measurement technique for multiple rapidly moving objects [J]. Opt. Express(S1094-4087), 2011, 19(9): 8539-8545.
[8] Almazan-Cuellar S, Malacara-Hernandez D. Two-step phase-shifting algorithm [J]. Optical Engineering(S0091-3286), 2003, 42(12): 3524–3531.
[9] Zhang S, Yau S T. High-speed three-dimensional shape measurement system using a modified two-plus-one phase-shifting algorithm [J]. Optical Engineering(S0091-3286), 2007, 46(11): 113603.
[10] ZHAI Aiping, CAO Yiping, HE Yuhang. 3D Measurement with Orthogonal Composite Structure Light Based on Two-Plus-One Phase-Shifting Algorithm [J]. Chinese Journal of Lasers, 2012, 39(2): 153-158.
[11] Jia P, Kofman J, English C. Two-step triangular-pattern phase-shifting method for three-dimensional object-shape measurement [J]. Optical Engineering(S0091-3286), 2007, 46(8): 083201.
[13] Zhu Y, Liu L, Luan Z, et al. Discussions about FFT-based two-step phase-shifting algorithm [J]. Optik(S0030-4026), 2008, 119(9): 424-428.
[14] YANG Fujun, HE Xiaoyuan. Two-step phase-shifting fringe projection profilometry: intensity derivative approach [J]. Applied Optics(S0003-6935), 2007, 46(29): 7172-7178.
[15] DUAN Xiaojie, DUAN Fajie, Lü Changrong. Phase stabilizing method based on PTAC for fiber-optic interference fringe projection profilometry [J]. Optics & Laser Technology(S0030-3992), 2013, 47: 137-143.
[16] LI Yang, CAO Yinping, Huang Zhenfen, et al. A three dimensional on-line measurement method based on five unequal steps phase shifting [J]. Optics Communications(S0030-4018), 2012, 285(21/22): 4285-4289.
[17] MENG Xiangfeng, CAI Lizhong, WANG Yurong, et al. Optical experimental verification of two-step generalized phase-shifting interferometry [J]. Acta Physica Sinica, 2009, 58(3): 1668-1674.
[18] Kreis T. Digital holographic interference-phase measurement using the Fourier-transform method [J]. Journal of the Optical Society of America A, 1986, 3(6): 847-855.
[19] Schnars U, Juptner W P O. Digital recording and numerical reconstruction of holograms [J]. Measurement Science & Technology(S0957-0233), 2002, 13(9): R85-R101.
[20] Vargas J, Quiroga J A, Sorzano C, et al. Two-step demodulation based on the Gram–Schmidt orthonormalization method [J]. Optics Letters(S0146-9592), 2012, 37(3): 443-445.
[21] Tay CJ, Quan C, Yang F J, et al. A new method for phase extraction from a single fringe pattern [J]. Opt.Commun (S0030-4018), 2004, 239: 251–258.
[22] Arevalillo Herráez M, Burton D R, Lalor M J, et al. A Fast two-dimensional phase unwrapping algorithm based on sorting by reliability following a non-continuous path [J]. Applied Optics(S0003-6935), 2002, 41(35): 7437-7444.
[23] ZHU Xinjun, CHEN Zhangqing, TANG Chen. Variational image decomposition for automatic background and noise removal of fringe patterns [J]. Opt. Lett(S0146-9592), 2013, 38(3): 275-277.
