[1] Zhou Y B, Yuan M H, Zhang J et al. Review of vision-based defect detection research and its perspectives for printed circuit board[J]. Journal of Manufacturing Systems, 70, 557-578(2023).

[2] Zong Y L, Liang J, Wang H et al. An intelligent and automated 3D surface defect detection system for quantitative 3D estimation and feature classification of material surface defects[J]. Optics and Lasers in Engineering, 144, 106633(2021).

[3] Han Y Y, Huang Y Y, Dong H C et al. Continuous gradient fusion class activation mapping: segmentation of laser-induced damage on large-aperture optics in dark-field images[J]. High Power Laser Science and Engineering, 12, e4(2023).

[4] Zhu Z M, You D D, Zhou F Q et al. Rapid 3D reconstruction method based on the polarization-enhanced fringe pattern of an HDR object[J]. Optics Express, 29, 2162-2171(2021).

[5] Chen B, Zhang S. High-quality 3D shape measurement using saturated fringe patterns[J]. Optics and Lasers in Engineering, 87, 83-89(2016).

[6] Lei J F, Sun Y, Zhang M et al. Topography measurement of strongly reflective surfaces based on improved automatic multi-exposure and digital raster projection technology[J]. Acta Photonica Sinica, 52, 1212004(2023).

[7] Wei Y F, Lu L, Xi J T et al. 3D shape measurement of shiny surfaces based on optimized combination of fringe patterns of different intensity[J]. Measurement Science and Technology, 32, 035203(2021).

[8] He X X, Liu B, Wang C L et al. Block-smoothed adaptive fringe projection for measuring high-reflective surface[J]. Infrared and Laser Engineering, 52, 20220825(2023).

[9] Sun L J, Zhang D D, Chen T F et al. Accurate local homography-based projector calibration method[J]. Laser & Optoelectronics Progress, 59, 1312003(2022).

[10] 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).

[11] Liu N Y, Liu Y K. An accurate phase-height mapping algorithm by using a virtual reference plane[J]. Optik, 206, 164083(2020).

[12] Yu J, Gao N, Meng Z Z et al. High-accuracy projector calibration method for fringe projection profilometry considering perspective transformation[J]. Optics Express, 29, 15053-15066(2021).

[13] Chen C, Yu J, Gao N et al. High accuracy 3D calibration method of phase calculation-based fringe projection system by using LCD screen considering refraction error[J]. Optics and Lasers in Engineering, 126, 105870(2020).

[14] Yu J, Da F P. Calibration refinement for a fringe projection profilometry system based on plane homography[J]. Optics and Lasers in Engineering, 140, 106525(2021).

[15] Bu L B, Wang R, Wang X S et al. Calibration method for fringe projection profilometry based on rational function lens distortion model[J]. Measurement, 217, 112996(2023).

[16] Zhang A, Sun Y Q, Gao N et al. Fringe projection profilometry by ternary-gray encoded phase unwrapping method[J]. Optics and Precision Engineering, 30, 518-526(2022).

[17] Wang X, Zhang X Q, Guo Y K. Multifrequency heterodyne phase compensation for monocular grating projection system[J]. Laser & Optoelectronics Progress, 60, 0928001(2023).

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

[19] Yang Z H, Zhu H B, Yin Y L et al. High-precision binocular camera calibration based on coding stereoscopic target[J]. Chinese Journal of Lasers, 50, 0604002(2023).

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

[21] Waddington C, Kofman J. Camera-independent saturation avoidance in measuring high-reflectivity-variation surfaces using pixel-wise composed images from projected patterns of different maximum gray level[J]. Optics Communications, 333, 32-37(2014).

[22] Kang J C, Kim C S, Pak I J et al. A new phase to height model in fringe projection profilometry by considering radial distortion of camera lens[J]. Optik, 247, 167895(2021).

[23] Suresh V, Holton J, Li B W. Structured light system calibration with unidirectional fringe patterns[J]. Optics and Lasers in Engineering, 106, 86-93(2018).