[1] Zuo C, Qian J M, Feng S J et al. Deep learning in optical metrology: a review[J]. Light: Science & Applications, 11, 39(2022).

[2] Li F Q, Chen W J. Phase error analysis and correction for phase shifting profilometry using crossed grating[J]. Acta Optica Sinica, 41, 1412002(2021).

[3] Wang J L, Zhang Q C, Wu Z J. Three-dimensional shape measurement method based on segmented step phase coding[J]. Laser & Optoelectronics Progress, 59, 1415012(2022).

[4] 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).

[5] Yan F, Qi J, Liu Y P et al. Three-dimensional measurement method of binary coded fringe focusing projection[J]. Acta Optica Sinica, 42, 2212002(2022).

[6] Zuo C, Tao T Y, Feng S J et al. Micro Fourier Transform Profilometry (μFTP): 3D shape measurement at 10, 000 frames per second[J]. Optics and Lasers in Engineering, 102, 70-91(2018).

[7] Yan L P, Zhang H Y, Zhang R et al. A robust phase unwrapping algorithm based on reliability mask and weighted minimum least-squares method[J]. Optics and Lasers in Engineering, 112, 39-45(2019).

[8] Wu S Q, Zhang Y, Zhang S Y et al. Analysis of three-dimensional measurement system and the coordinates calibration in Fourier transform profilometry[J]. Acta Optica Sinica, 29, 2780-2785(2009).

[9] 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).

[10] Liu Z P, Zibley P C, Zhang S. Motion-induced error compensation for phase shifting profilometry[J]. Optics Express, 26, 12632-12637(2018).

[11] Wang J H, Yang Y X. 3D surface reconstruction scheme for dynamic objects: principle and implementation[J]. Measurement, 201, 111718(2022).

[12] Feng S J, Zuo C, Hu Y et al. Deep-learning-based fringe-pattern analysis with uncertainty estimation[J]. Optica, 8, 1507-1510(2021).

[13] Feng S J, Zuo C, Tao T Y et al. Robust dynamic 3-D measurements with motion-compensated phase-shifting profilometry[J]. Optics and Lasers in Engineering, 103, 127-138(2018).

[14] Lu L, Yin Y K, Su Z L et al. General model for phase shifting profilometry with an object in motion[J]. Applied Optics, 57, 10364-10369(2018).

[15] Lu L, Jia Z Y, Luan Y S et al. Reconstruction of isolated moving objects with high 3D frame rate based on phase shifting profilometry[J]. Optics Communications, 438, 61-66(2019).

[16] Zhang S, Yau S T. High-speed three-dimensional shape measurement system using a modified two-plus-one phase-shifting algorithm[J]. Optical Engineering, 46, 113603(2007).

[17] Li Q, Xue J P, Zhang Q C et al. Three dimensional shape measurement of high reflective elements using camera response curve[J]. Acta Optica Sinica, 42, 0712001(2022).

[18] Zhan Y, Hu D, Liu K. Adaptive structured light for high-reflective areas[J]. Acta Optica Sinica, 42, 1612001(2022).

[19] Feng W, Tang S J, Zhao X D et al. Three-dimensional shape measurement method of high-reflective surfaces based on adaptive fringe-pattern[J]. Acta Optica Sinica, 40, 0512003(2020).

[20] Zhang S, Yau S T. High dynamic range scanning technique[J]. Optical Engineering, 48, 033604(2009).

[21] Feng S J, Zhang Y Z, Chen Q et al. General solution for high dynamic range three-dimensional shape measurement using the fringe projection technique[J]. Optics and Lasers in Engineering, 59, 56-71(2014).

[22] Jiang H Z, Zhao H J, Li X D. High dynamic range fringe acquisition: a novel 3-D scanning technique for high-reflective surfaces[J]. Optics and Lasers in Engineering, 50, 1484-1493(2012).

[23] Waddington C, Kofman J. Analysis of measurement sensitivity to illuminance and fringe-pattern gray levels for fringe-pattern projection adaptive to ambient lighting[J]. Optics and Lasers in Engineering, 48, 251-256(2010).

[24] Waddington C J, Kofman J D. Modified sinusoidal fringe-pattern projection for variable illuminance in phase-shifting three-dimensional surface-shape metrology[J]. Optical Engineering, 53, 084109(2014).

[25] Lin H, Gao J A, Mei Q et al. Adaptive digital fringe projection technique for high dynamic range three-dimensional shape measurement[J]. Optics Express, 24, 7703-7718(2016).

[26] Chen C, Gao N, Wang X J et al. Adaptive projection intensity adjustment for avoiding saturation in three-dimensional shape measurement[J]. Optics Communications, 410, 694-702(2018).

[27] Nayar S K, Fang X S, Boult T. Separation of reflection components using color and polarization[J]. International Journal of Computer Vision, 21, 163-186(1997).

[28] Salahieh B, Chen Z Y, Rodriguez J J et al. Multi-polarization fringe projection imaging for high dynamic range objects[J]. Optics Express, 22, 10064-10071(2014).

[29] Wang J H, Yang Y X, Xu P et al. Noise-induced phase error comparison in multi-frequency phase-shifting profilometry based on few fringes[J]. Optics & Laser Technology, 159, 109034(2023).

[30] Wang J H, Yang Y X. Phase extraction accuracy comparison based on multi-frequency phase-shifting method in fringe projection profilometry[J]. Measurement, 199, 111525(2022).

[31] Zhang M L, Chen Q A, Tao T Y et al. Robust and efficient multi-frequency temporal phase unwrapping: optimal fringe frequency and pattern sequence selection[J]. Optics Express, 25, 20381-20399(2017).

[32] Feng S J, Zuo C, Zhang L et al. Calibration of fringe projection profilometry: a comparative review[J]. Optics and Lasers in Engineering, 143, 106622(2021).