COMPARISON OF PHASE-CODING METHODS FOR ABSOLUTE PHASE RETRIEVAL, 37-48.

Dawei Zhou, Jun Wu, Xiangcheng Chen, Zhaolu Zuo, and Deyi Kong

References

1. [1] W. Zhou, X. Chen, and B. Cui, A case study of environmentalmonitoring data analysis and forecasting model, MechatronicSystems and Control, 46, 2018, 127–131.10
2. [2] H. Gao, J. Xue, and W. Gu, An automatic sorting systemfor green leafy vegetable harvesting, Mechatronic Systems andControl, 48, 2020, 110–115.
3. [3] R. Oberhauser and C. Lecon, Towards gamifying softwarestructure comperhension in virtual reality, Mechatronic Sys-tems and Control, 47, 2019, 56–62.
4. [4] B. Curless, From range scans to 3D models, SIGGRAPHComputer Graphics, 33, 1999, 38–41.
5. [5] X. Su and Q. Zhang, Dynamic 3-D shape measurement method:A review, Optics and Lasers in Engineering, 48, 2010, 191–204.
6. [6] S.S. Gorthi and P. Rastogi, Fringe projection techniqueswhither we are, Optics and Lasers in Engineering, 48, 2010,133–140.
7. [7] S. Zhang, Recent progresses on real-time 3D shape measure-ment using digital fringe projection techniques, Optics andLasers in Engineering, 48, 2010, 149–158.
8. [8] S. Feng, L. Zhang, C. Zuo, T. Tao, Q. Chen, and G. Gu,High dynamic range 3D measurements with fringe projectionprofilometry: a review, Measurement Science and Technology,29, 2018, 122001-1–122001-19.
9. [9] S. Zhang, Absolute phase retrieval methods for digital fringeprojection profilometry: A review, Optics and Lasers in Engi-neering, 107, 2018, 28–37.
10. [10] S. Zhang, High-speed 3D shape measurement with structuredlight methods: A review, Optics and Lasers in Engineering,106, 2018, 119–131.
11. [11] M. Takeda, Fourier fringe analysis and its application tometrology of extreme physical phenomena a review, AppliedOptics, 52, 2012, 20–29.
12. [12] C. Zuo, S. Feng, L. Huang, T. Tao, W. Yin, and Q. Chen,Phase shifting algorithms for fringe projection profilometry:A review, Optics and Lasers in Engineering, 109, 2018,23–59.
13. [13] B. Cai, L. Zhang, J. Wu, M. Wang, X. Chen, M. Duan, K.Wang, and Y. Wang, Absolute phase measurement with fourpatterns based on variant shifting phases, Review of ScientificInstruments, 91, 2020, 065115-1–065115-12.
14. [14] C. Zuo, L. Huang, M. Zhang, Q. Chen, and A. Asundi,Temporal phase unwrapping algorithms for fringe projectionprofilometry: A comparative review, Optics and Lasers inEngineering, 85, 2016, 84–103.
15. [15] B. Cai, Y. Yang, J. Wu, Y. Wang, M. Wang, X. Chen, K.Wang, and L. Zhang, An improved gray-level coding method forabsolute phase measurement based on half-period correction,Optics and Lasers in Engineering, 128, 2020, 106012.
16. [16] K. Liu, Y. Wang, D.L. Lau, Q. Hao, and L.G. Hassebrook,Dual-frequency pattern scheme for high speed 3-D shape mea-surement, Optics Express, 18, 2010, 5229–5244.
17. [17] Y. Wang and S. Zhang, Novel phase-coding method for absolutephase retrieval, Optics Letters, 37, 2012, 2067–2069.
18. [18] J. Wu, Z. Zhou, Q. Liu, Y. Wang, Y. Wang, Y. Gu, andX. Chen, Two-wavelength phase-shifting method with fourpatterns for three-dimensional shape measurement, OpticalEngineering, 59, 2020, 024107-1–024107-10.
19. [19] X. Chen, J. Wu, R. Fan, Q. Liu, Y. Xiao, Y. Wang, andY. Wang, Two-digit phase-coding strategy for fringe projec-tion profilometry, IEEE Transactions on Instrumentation andMeasurement, 70, 2021, 1–9.
20. [20] Y. Xing, C. Quan, and C.J. Tay, A modified phase-codingmethod for absolute phase retrieval, Optics and Lasers inEngineering, 87, 2016, 97–102.
21. [21] B. Pan, K. Qian, L. Huang, and A. Asundi, Phase erroranalysis and compensation for nonsinusoidal waveforms inphase-shifting digital fringe projection profilometry, OpticsLetters, 34, 2009, 416–418.
22. [22] D. Zheng and F. Da, Phase coding method for absolute phaseretrieval with a large number of codewords, Opt Express, 20,2012, 24139–24150.
23. [23] Y. Chen, X. Han, P. Zhang, Y. Fu, K. Zhong, and W. Zhang,3D measurement method based on S-shaped segmental phaseencoding, Optics & Laser Technology, 121, 2020, 2083–2092.
24. [24] C. Zhou, T. Liu, S. Si, J. Xu, Y. Liu, and Z. Lei, An improvedstair phase encoding method for absolute phase retrieval, Opticsand Lasers in Engineering, 66, 2015, 269–278.
25. [25] X. Chen, Y. Wang, Y. Wang, M. Ma, and C. Zeng, Quantizedphase coding and connected region labeling for absolute phaseretrieval, Optics Express, 24, 2016, 28613–28624.
26. [26] S. Lv, M. Jiang, C. Su, L. Zhang, F. Zhang, Q. Sui, and L.Jia, Improved unwrapped phase retrieval method of a fringeprojection profilometry system based on fewer phase-codingpatterns, Applied Optics, 58, 2019, 8993–9001.
27. [27] Y. Wang, X. Chen, L. Huang, Q. Liu, L. Li, and W. Huang,Improved phase-coding methods with fewer patterns for 3Dshape measurement, Optics Communications, 401, 2017, 6–10.
28. [28] G. Wu, Y. Wu, L. Li, and F. Liu, High-resolution few-patternmethod for 3D optical measurement, Optics Letters, 44, 2019,3602–3605.
29. [29] J. Luo, Y. Wang, X. Yang, X. Chen, and Z. Wu, Modifiedfive-step phase-shift algorithm for 3D profile measurement,Optik, 162, 2018, 237–243.
30. [30] B. Li, Y. Fu, J. Zhang, H. Wu, G. Xia, and G. Jiang, A fastthree-dimensional shape measurement method based on colorphase coding, Optik, 127, 2016, 1011–1015.
31. [31] P.S. Huang, Q. Hu, F. Jin, and F.-P. Chiang, Color-encoded digital fringe projection technique for high-speed three-dimensional surface contouring, Optical Engineering, 38, 1999,1065–1071.
32. [32] Y. Hu, J. Xi, J. Chicharo, and Z. Yang, Blind color isolation forcolor-channel-based fringe pattern profilometry using digitalprojection, Journal of the Optical Society of America A, 24,2007, 2372–2382.
33. [33] Y. Wang, L. Liu, J. Wu, X. Chen, and Y. Wang, Hilberttransform-based crosstalk compensation for color fringe pro-jection profilometry, Optics Letters, 45, 2020, 2199–2202.
34. [34] Y. Wang, L. Liu, J. Wu, X. Chen, and Y. Wang, Enhancedphase-coding method for three-dimensional shape measurementwith half-period codeword, Applied Optics, 58, 2019, 7359–7366.
35. [35] Y. Wang, L. Liu, J. Wu, X. Song, X. Chen, and Y. Wang,Dynamic three-dimensional shape measurement with a com-plementary phase-coding method, Optics and Lasers in Engi-neering, 127, 2020, 105982.
36. [36] Y. An, J.S. Hyun, and S. Zhang, Pixel-wise absolute phaseunwrapping using geometric constraints of structured lightsystem, Optics Express, 24, 2016, 18445–18459.
37. [37] S. Lei and S. Zhang, Flexible 3-D shape measurement usingprojector defocusing, Optics Letters, 34, 2009, 3080–3082.
38. [38] Y. Wang and S. Zhang, Three-dimensional shape measurementwith binary dithered patterns, Applied Optics, 51, 2012, 6631–6636.
39. [39] B. Li, Y. Wang, J. Dai, W. Lohry, and S. Zhang, Somerecent advances on superfast 3D shape measurement withdigital binary defocusing techniques, Optics and Lasers inEngineering, 54, 2014, 236–246.
40. [40] J. Dai and S. Zhang, Phase-optimized dithering technique forhigh-quality 3D shape measurement, Optics and Lasers inEngineering, 51, 2013, 790–795.
41. [41] C. Zuo, S. Feng, X. Zhang, J. Han, and Q. Chen, Deeplearning based computational imaging status challenges andfuture, Acta Optica Sinica, 40, 2020, 1–26.11

Important Links:

• Abstract
• DOI: 10.2316/J.2022.201-0260
• From Journal (201) Mechatronic Systems and Control - 2022

Go Back