Opto-Electronic Engineering
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Vol. 44, No 5, 2017
Large aperture glass lenses are used in traditional high resolution imaging, which are bulky, heavy, difficult to fabricate and costly. With the development of high resolution imaging satellites, the glass mirror faced a bottleneck: even for the current largest launch vehicle, traditional glass lenses are too large and too heavy to be launched. Numerous countries are seeking the solutions to these challenges.
The microstructure membrane optical imaging technique is based on the light diffraction. The micron-scale membrane is used as the primary lens of large aperture optical system. This kind of telescope is lighter, more convenient in transportation and more cost-effective, which can break the bottleneck of traditional optical imaging. Therefore, microstructure membrane becomes a research focus in realizing the large aperture optical system. Many countries have carried out researches of microstructure optical imaging technology. For example, the US Department of Defense Advanced Research Projects Agency (DARPA) supports Membrane Optic Imager Real-Time Exploitation (MOIRE). Instead of using traditional glass mirrors or lenses, MOIRE investigated to diffract light by Fresnel lenses made from a lightweight membrane. In 2016, Science used a figure of metalens consisted of the nano-antennas arrays as its coverpage. In this issue, a review paper overviews research progress of micro/nano structured membrane at home and abroad.
Machine vision is an important application of modern photoelectric measurement. The advantages of machine vision systems are that it can increase production flexibility and automation. In industrial production process, detection by machine vision can greatly improve production efficiency and automation. Machine vision is an important part of intelligent manufacturing Chinese strategic development. Three papers of this issue introduce research advances and applications of machine vision in automatic localization, optical processing and control, respectively.
Two papers propose a front-end module of the fast optical sensing system and the displacement sensor and a model to improve the calibration accuracy of star sensor. These systems can not only reduce the dependence on foreign technologies, but also promote the development of other related technologies and industry. Other two papers report a SHS interferogram correction scheme and a stable guidance strategy of the shipboard theodolite. In the last paper, a cloud model for several real color dots is proposed to direct extraction of 3D hairline.
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  Review  |  TH743
Online Time:May 15, 2017
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Yang Wei, Wu Shibin, Wang Lihua, et al. Research advances and key technologies of macrostructure membrane telescope[J]. Opto-Electronic Engineering, 2017, 44(5): 475–482. 
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Li Xiaoguang , Yu Haoyu, Yew Yuenkeong , et al. A portable optical sensing system for rapid detection of fluorescence spectra[J]. Opto-Electronic Engineering, 2017, 44(5): 483–487. 
  Article  |  TH744.1
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Zhang Wenli, Tian Fengchun, Zhao Zhenzhen, et al. Interferogram correction of spatial heterodyne spectrometer[J]. Opto-Electronic Engineering, 2017, 44(5): 488–497. 
  Article  |  TH741
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Liao Ping, Ren Cheng , Yang Xiaoyu . Front-end design of high precision displacement sensor based on linear array CCD[J]. Opto-Electronic Engineering, 2017, 44(5): 498–504. 
  Article  |  V448.2
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Yuan Xiaobo, Zhang Chao. An on-orbit calibration model for wide field of view star sensor based on the vector observations[J]. Opto-Electronic Engineering, 2017, 44(5): 505–510. 
  Article  |  V271.4
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Zhang Xingguo, Han Tao, Li Jing. Guidance and implementation of photoelectric theodolite in shipborne environment[J]. Opto-Electronic Engineering, 2017, 44(5): 511–515. 
  Article  |  TP242.2
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Hasirdenn, Zeng Zhige, Liu Haitao, et al. Measurement and analyses on positioning accuracy for optical processing robots[J]. Opto-Electronic Engineering, 2017, 44(5): 516–522. 
  Article  |  TP242;TP391.41
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Cao Tianyang, Cai Haoyuan, Fang Dongming, et al. Robot vision localization system based on image content matching[J]. Opto-Electronic Engineering, 2017, 44(5): 523–533. 
  Article  |  TP273
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Zhou Tao, Wang Lei. Sliding model control of robot manipulator based on a novel switching function[J]. Opto-Electronic Engineering, 2017, 44(5): 534–538. 
  Article  |  TN391
Online Time:May 15, 2017
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Gao Lipan, Ge Baozhen. Three-dimensional hairline extracting based on the color point cloud of human head[J]. Opto-Electronic Engineering, 2017, 44(5): 539–547.