[1] |
Thomas D, Sugimoto A. A flexible scene representation for 3D reconstruction using an RGB-D camera[C]//2013 IEEE International Conference on Computer Vision, 2013: 2800-2807. |
[2] |
Ma G Q, Liu L, Yu Z L, et al. Application and development of three-dimensional profile measurement for large and complex surface [J]. Chinese Optics, 2019, 12(2): 214-228. (in Chinese) doi: 10.3788/co.20191202.0214 |
[3] |
Du R J, Ge B Z, Ch L. Texture mapping of multi-view high-resolution images and binocular 3D point clouds [J]. Chinese Optics, 2020, 13(5): 1055-1064. (in Chinese) doi: 10.37188/CO.2020-0034 |
[4] |
Ning Xiaojuan, Lu Zhiwei, Ma Jie. Coarse-to-fine indoor scene layout division and structure reconstruction [J]. Laser & Optoelectronics Progress, 2021, 58(22): 2210018. (in Chinese) |
[5] |
Mei F, Liu J, Li C B, et al. Interior scene reconstruction based on RGB-D depth camera [J]. Journal of Image and Graphics, 2015, 20(10): 1366-1373. (in Chinese) |
[6] |
Gorthi S S, Rastogi P, Song M. Fringe projection techniques: Whither we are? [J]. Optics & Lasers in Engineering, 2010, 48(2): 130-140. |
[7] |
Chen Y S, Xia M, Lin L. Experimental study of grating phase shift method for 3D anthropometry [J]. Journal of Textile Research, 2013, 34(6): 83-87. (in Chinese) |
[8] |
Zhang Q C, Wu Z J. Three-dimensional imaging technique based on Gray-coded structured illumination [J]. Infrared and Laser Engineering, 2020, 49(3): 0303004. (in Chinese) doi: 10.3788/IRLA202049.0303004 |
[9] |
Zhao Y, Fu J A, Yu H T, et al. Defocus projection three-dimensional measurement based on deep learning accurate phase acquisition [J]. Infrared and Laser Engineering, 2020, 49(7): 20200012. (in Chinese) doi: 10.3788/IRLA20200012 |
[10] |
Cao Z R, Dong J H. Application of structured light coding measurement technology in Mars high-resolution camera [J]. Optics and Precision Engineering, 2021, 29(6): 1420-1429. (in Chinese) |
[11] |
Nayar S K, Krishnan G, Grossberg M D, et al. Fast separation of direct and global components of a scene using high frequency illumination [J]. ACM Trans Graph, 2006, 25(3): 935-944. |
[12] |
Chen T, Seidel H, Lensch P A. Modulated phase-shifting for 3 d scanning[C]//2008 IEEE Conference on Computer Vision and Pattern Recognition, 2008: 1–8. |
[13] |
Holroyd M, Lawrence J, Zickler T. A coaxial optical scanner for synchronous acquisition of 3D geometry and surface reflectance [J]. Acm Transactions on Graphics, 2011, 29(4): 1-12. |
[14] |
Deng J, Li J, Feng H, et al. Efficient intensity-based fringe projection profilometry method resistant to global illumination [J]. Optics Express, 2020, 28(24): 36346-36360. doi: 10.1364/OE.408835 |
[15] |
Zhang Q H, Zhang Q J, Jia J H, et al. Research on periodic dislocation Correction Method based on image morphology operation [J]. Transducer and Microsystem Technologies, 2021, 40(7): 52-55+59. (in Chinese) |
[16] |
Lei J F, Chen Z Q, Zhang M, et al. Improvement of phase unwrapping method for dual-frequency projection fringe [J]. Optics and Precision Engineering, 2021, 29(6): 1337-1345. |
[17] |
Wang Y, Lu L, J Wu, et al. Hilbert transform based crosstalk compensation for color fringe projection profilometry [J]. Optics Letters, 2020, 45(8): 2199-2202. doi: 10.1364/OL.392061 |
[18] |
Zhang S. Flexible 3 D shape measurement using projector defocusing: Extended measurement range [J]. Optics Letters, 2010, 35(7): 934-936. doi: 10.1364/OL.35.000934 |