[1] Y Q GUO, Z J DUAN, Z Y ZHANG et al. Fast and accurate 3D face reconstruction based on facial geometry constraints and fringe projection without phase unwrapping. Optics and Lasers in Engineering, 159, 107216(2022).
[2] Sensen MENG, Ning CAI, Bin LIN. Threshold-optimized dithering technique for high-quality 3D shape measurement. Acta Photonica Sinica, 48, 0812002(2019).
[3] H X DENG, X LING, Y Y WANG et al. High-speed and high-accuracy fringe projection profilometry without phase unwrapping. Optics and Lasers in Engineering, 140, 106518(2021).
[4] Y F WEI, L LU, J T XI et al. 3D shape measurement of shiny surfaces based on optimized combination of fringe patterns of different intensity. Measurement Science and Technology, 32, 035203(2021).
[5] Wanqiu HE, Xingwei SUN, Zhixu DONG et al. High dynamic dimming method based on digital micromirror. Laser Journal, 43, 50-54(2022).
[6] J SUN, Q ZHANG. A 3D shape measurement method for high-reflective surface based on accurate adaptive fringe projection. Optics and Lasers in Engineering, 153, 106994(2022).
[7] Hongzhi JIANG, Huijie ZHAO, Xudong LI et al. Projected fringe profilometry for profile measurement of high reflective surface. Optics and Precision Engineering, 18, 2002-2008(2010).
[8] S ZHANG, S T YAU. High dynamic range scan⁃ning technique. Optical Engineering, 48, 033604(2009).
[9] Zhaojie LI, Haihua CUI, Changyi LIU et al. A shape measurement method based on automatic multiple exposure surface structured light. Acta Optica Sinica, 38, 167-174(2018).
[10] S J FENG, Y Z ZHANG, Q CHEN et al. General solution for high dynamic range three-dimensional shape measurement using fringe projection techniques. Optics and Lasers in Engineering, 59, 56-71(2014).
[11] Jingfa LEI, Zongsheng LU, Yongling LI et al. High reflection surface topography measurement based on fringe projection phase method and multi-exposure image fusion technology. Optics and Precision Engineering, 30, 2195-2204(2022).
[12] Lin DU, Huayan SUN, Tinghua ZHANG et al. Calibration camera response function model algorithm based on principal component analysis. Infrared and Laser Engineering, 45, 251-259(2016).
[13] Zonghua ZHANG, Jin YU, Nan GAO et al. Three-dimensional shape measurement techniques of shiny surfaces. Infrared and Laser Engineering, 49, 104-116(2020).
[14] X L HOU, J C ZHANG, P P ZHOU. Reconstructing a high dynamic range image with a deeply unsupervised fusion model. IEEE Photonics Journal, 13, 1-10(2021).
[15] Qian LI, Junpeng XUE, Qican ZHANG et al. Three dimensional shape measurement of high reflective elements using camera response curve. Acta Photonica Sinica, 42, 140-151(2022).
[16] Wenyi CHEN, Chengxun YANG, Hui YANG et al. Multiscale retinex infrared image enhancement based on the fusion of guided filtering and logarithmic transformation algorithm. Infrared Technology, 44, 397-403(2022).
[17] Fujun YANG, Min GENG, Meiling DAI et al. 3D shape measurement of discontinuous objects based on single frequency fringe projection in 4-step phase shifting profilemetry. Journal of Optoelectronics·Laser, 23, 1535-1538(2012).
[18] Wen LI, Ning CAI, Bin LIN et al. Adaptive phase unwrapping method based on geometric constraint. Acta Photonica Sinica, 48, 0810001(2019).
[19] Xu HAN, Lin WANG, Yanjun FU. Phase unwrapping method based on dual-frequency heterodyne combined with phase encoding. Infrared and Laser Engineering, 48, 248-255(2019).
[20] Jingfa LEI, Zhiqiang CHEN, Miao ZHANG et al. Improvement of phase unwrapping method for dual-frequency projection fringe. Optics and Precision Engineering, 29, 1337-1345(2021).
[21] Z Q MA, Z S LU, Y L LI et al. Multi-frequency fringe projection profilometry: phase error suppression based on cycle count adjustment. Applied Sciences, 13, 5117(2023).
[22] Shaoyan GAI, DA Feipeng. A new model of 3D shape measurement system based on phase measuring profilometry and its calibration. Acta Automatica Sinica, 33, 902-910(2007).
