[1] Yu J J, Zhou J P, Xue R L et al. Weld surface quality detection based on structured light and illumination model[J]. Chinese Journal of Lasers, 49, 1602019(2022).

[2] Wu J, Li X, Liu S Y et al. Global three-dimensional reconstruction method for visual detection of aircraft skin damage based on rear positioning[J]. Acta Optica Sinica, 41, 1115002(2021).

[3] Chen Y L, Wang F Y, Liu J Y. Non-contact portable three-dimensional palmprint acquisition system based on binocular stereo vision and structured light[J]. Laser＆Optoelectronics Progress, 59, 0410016(2022).

[4] Sansoni G, Docchio F. 3-D optical measurements in the field of cultural heritage: the case of the Vittoria Alata of Brescia[J]. IEEE Transactions on Instrumentation and Measurement, 54, 359-368(2005).

[5] Xu J, Zhang S. Status, challenges, and future perspectives of fringe projection profilometry[J]. Optics and Lasers in Engineering, 135, 106193(2020).

[6] Su X Y, Zhang Q C. Dynamic 3-D shape measurement method: a review[J]. Optics and Lasers in Engineering, 48, 191-204(2010).

[7] Zhang S. High-speed 3D shape measurement with structured light methods: a review[J]. Optics and Lasers in Engineering, 106, 119-131(2018).

[8] Li L, Zheng Y, Yang K et al. Modified three-wavelength phase unwrapping algorithm for dynamic three-dimensional shape measurement[J]. Optics Communications, 480, 126409(2021).

[9] Guo W B, Wu Z J, Zhang Q C et al. Real-time motion-induced error compensation for 4-step phase-shifting profilometry[J]. Optics Express, 29, 23822-23834(2021).

[10] Su X Y, Zhou W S, von Bally G et al. Automated phase-measuring profilometry using defocused projection of a Ronchi grating[J]. Optics Communications, 94, 561-573(1992).

[11] Lei S Y, Zhang S. Flexible 3-D shape measurement using projector defocusing[J]. Optics Letters, 34, 3080-3082(2009).

[12] Zuo C, Huang L, Zhang M L et al. Temporal phase unwrapping algorithms for fringe projection profilometry: a comparative review[J]. Optics and Lasers in Engineering, 85, 84-103(2016).

[13] Zhang Q C, Wu Z J. Three-dimensional imaging technique based on Gray-coded structured illumination[J]. Infrared and Laser Engineering, 49, 0303004(2020).

[14] Li W S, Su X Y, Liu Z B. Large-scale three-dimensional object measurement: a practical coordinate mapping and image data-patching method[J]. Applied Optics, 40, 3326-3333(2001).

[15] Zhang Z Y. A flexible new technique for camera calibration[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 22, 1330-1334(2000).

[16] Zhu J P, Zhou P, Su X Y et al. Accurate and fast 3D surface measurement with temporal-spatial binary encoding structured illumination[J]. Optics Express, 24, 28549-28560(2016).

[17] Zuo C, Chen Q, Gu G H et al. High-speed three-dimensional shape measurement for dynamic scenes using bi-frequency tripolar pulse-width-modulation fringe projection[J]. Optics and Lasers in Engineering, 51, 953-960(2013).

[18] Liu K, Wang Y C, Lau D L et al. Dual-frequency pattern scheme for high-speed 3-D shape measurement[J]. Optics Express, 18, 5229-5244(2010).

[19] Wu J, Zhou Z H, Liu Q et al. Two-wavelength phase-shifting method with four patterns for three-dimensional shape measurement[J]. Optical Engineering, 59, 024107(2020).

[20] Zuo C, Chen Q, Gu G H et al. High-speed three-dimensional profilometry for multiple objects with complex shapes[J]. Optics Express, 20, 19493-19510(2012).

[21] Wang Y J, Zhang S. Novel phase-coding method for absolute phase retrieval[J]. Optics Letters, 37, 2067-2069(2012).

[22] Zheng D L, Kemao Q, Da F P et al. Ternary Gray code-based phase unwrapping for 3D measurement using binary patterns with projector defocusing[J]. Applied Optics, 56, 3660-3665(2017).

[23] He X Y, Zheng D L, Qian K M et al. Quaternary Gray-code phase unwrapping for binary fringe projection profilometry[J]. Optics and Lasers in Engineering, 121, 358-368(2019).

[24] Wu Z J, Zuo C, Guo W B et al. High-speed three-dimensional shape measurement based on cyclic complementary Gray-code light[J]. Optics Express, 27, 1283-1297(2019).

[25] Wu Z J, Guo W B, Zhang Q C. High-speed three-dimensional shape measurement based on shifting Gray-code light[J]. Optics Express, 27, 22631-22644(2019).

[26] Wu Z J, Guo W B, Li Y Y et al. High-speed and high-efficiency three-dimensional shape measurement based on Gray-coded light[J]. Photonics Research, 8, 819-829(2020).

[27] Wu Z J, Guo W B, Lu L L et al. Generalized phase unwrapping method that avoids jump errors for fringe projection profilometry[J]. Optics Express, 29, 27181-27192(2021).

[28] Lu L L, Wu Z J, Zhang Q C. Dynamic three-dimensional shape measurement method based on misaligned Gray code[J]. Acta Optica Sinica, 42, 0512005(2022).

[29] Wu Z J, Guo W B, Zhang Q C et al. Time-overlapping structured-light projection: high performance on 3D shape measurement for complex dynamic scenes[J]. Optics Express, 30, 22467-22486(2022).

[30] Wang Y J, Laughner J I, Efimov I R et al. 3D absolute shape measurement of live rabbit hearts with a superfast two-frequency phase-shifting technique[J]. Optics Express, 21, 5822-5832(2013).

[31] Inokuchi S. Range-imaging system for 3-D object recognition[J]. ICPR, 1984, 806-808(1984).

[32] Guehring J. Dense 3D surface acquisition by structured light using off-the-shelf components[J]. Proceedings of SPIE, 4309, 220-231(2000).

[33] Song Z, Chung R, Zhang X T. An accurate and robust strip-edge-based structured light means for shiny surface micromeasurement in 3-D[J]. IEEE Transactions on Industrial Electronics, 60, 1023-1032(2013).

[34] Pagès J, Salvi J, Collewet C et al. Optimised De Bruijn patterns for one-shot shape acquisition[J]. Image and Vision Computing, 23, 707-720(2005).

[35] Ayubi G A, di Martino J M, Alonso J R et al. Three-dimensional profiling with binary fringes using phase-shifting interferometry algorithms[J]. Applied Optics, 50, 147-154(2011).

[36] Ayubi G A, di Martino J M, Alonso J R et al. Color encoding of binary fringes for gamma correction in 3-D profiling[J]. Optics Letters, 37, 1325-1327(2012).

[37] Wu Z J, Guo W B, Zhang Q C. Two-frequency phase-shifting method vs. Gray-coded-based method in dynamic fringe projection profilometry: a comparative review[J]. Optics and Lasers in Engineering, 153, 106995(2022).