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A 3D measurement method based on multi-view fringe projection by using a turntable 被引量:1

A 3D measurement method based on multi-view fringe projection by using a turntable
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摘要 In order to get the entire data in the optical measurement, a multi-view three-dimensional(3D) measurement method based on turntable is proposed. In the method, a turntable is used to rotate the object and obtain multi-view point cloud data, and then multi-view point cloud data are registered and integrated into a 3D model. The measurement results are compared with that of the sticking marked point method. Experimental results show that the measurement process of the proposed method is simpler, and the scanning speed and accuracy are improved. In order to get the entire data in the optical measurement, a multi-view three-dimensional(3D) measurement method based on turntable is proposed. In the method, a turntable is used to rotate the object and obtain multi-view point cloud data, and then multi-view point cloud data are registered and integrated into a 3D model. The measurement results are compared with that of the sticking marked point method. Experimental results show that the measurement process of the proposed method is simpler, and the scanning speed and accuracy are improved.
作者 宋丽梅 高艳艳 朱新军 郭庆华 习江涛
机构地区 Key Laboratory of Advanced Electrical Engineering and Energy Technology School of Electrical
出处 《Optoelectronics Letters》 EI 2016年第5期389-394,共6页 光电子快报(英文版)
基金 supported by the National Natural Science Foundation of China(Nos.60808020 and 61078041) the Natural Science Foundation of Tianjin City(Nos.15JCYBJC51700 and 16JCYBJC15400) the National Science and Technology Support(No.2014BAH03F01)
关键词 测量方法 三维模型 转台 点投影 点云数据 光学测量 测量过程 扫描速度 projection registered cloud fringe calibration rotate fitting reconstructed coordinates scanner
分类号 TP391.41 [自动化与计算机技术—计算机应用技术] U666.16 [交通运输工程—船舶及航道工程]
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参考文献14

  • 1J. Geng, Advances in Optics and Photonics 3, 128 (2011).
  • 2L. M. Zhou, X. H. Zhang and B. L. Guan, Measurement 58, 115 (2014).
  • 3X. L. Liu, X. Peng, H. L. Chen, D. He and B. Z. GAO, Optics Letters 37, 3126 (2012).
  • 4S. Y. Park and M. Subbarao, Machine Vision and Ap- plications 16, 148 (2005).
  • 5M. Farouk, I. EI-Rifai, S. E1-Tayar, H. EI-Shishiny, M. Hosny, M. E1-Rayes, J. Gomes, F. Giordano, H. Rush- meier, F. Bemardini and K. Magerlein, Scanning and Processing 3D Objects for Web Display, IEEE 4th In- ternational Conference on 3D Digital Imaging and Modeling, 310 (2003).
  • 6M. Hu and J. Xi, Journal of Shanghai Jiao Tong Univer- sity 44, 506 (2010).
  • 7H. Feng, L. Zhang, X. Wang and H. Wang, Mechanical Science and Technology for Aerospace Engineering 31, 244 (2012). (in Chinese).
  • 8M. Dai, L. Chen, F. Yang and X. He, Applied Optics 52, 5440 (2013).
  • 9L. M. Song, P. Q. Wang, Y. L. Chang, X. J. Li, J. T. Xi, Q. H. Guo and B. N. Li, Optoelectronics Letters 11, 145 (2015).
  • 10L. M. Song, D. P. Li, M. C. Qin, Z. Y. Li, Y. L. Chang and J. T. Xi, Optoelectronics Letters 10, 378 (2014).

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Optoelectronics Letters
2016年 第5期

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