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机载 3D探测成像系统的发展现状

张健 张雷 曾飞 王旭 赵嘉鑫 田海英 任航 李俊峰

张健, 张雷, 曾飞, 王旭, 赵嘉鑫, 田海英, 任航, 李俊峰. 机载 3D探测成像系统的发展现状[J]. , 2011, 4(3): 213-232.
引用本文: 张健, 张雷, 曾飞, 王旭, 赵嘉鑫, 田海英, 任航, 李俊峰. 机载 3D探测成像系统的发展现状[J]. , 2011, 4(3): 213-232.
ZHANG Jian, ZHANG Lei, ZENG Fei, WANG Xu, ZHAO Jia-xin, TIAN Hai-ying, REN Hang, LI Jun-feng. Development status of airborne 3D imaging lidar systems[J]. Chinese Optics, 2011, 4(3): 213-232.
Citation: ZHANG Jian, ZHANG Lei, ZENG Fei, WANG Xu, ZHAO Jia-xin, TIAN Hai-ying, REN Hang, LI Jun-feng. Development status of airborne 3D imaging lidar systems[J]. Chinese Optics, 2011, 4(3): 213-232.

机载 3D探测成像系统的发展现状

详细信息
  • 中图分类号: TN958.98; TJ765.332; TJ439.2

Development status of airborne 3D imaging lidar systems

  • 摘要: 机载 3D探测成像是通过 主动成像产生目标的角-角-距、角-角-速度3D图像的一种新的探测成像技术。本文重点阐述了机载 3D探测成像系统的原理、功能和系统的组成。介绍了该系统在军事和民用两大领域的应用,详细地讨论了近几年机载 3D探测成像技术的国内外发展现状及动态,总结了该项技术的发展方向。认为国外的机载 3D探测系统正向远距离、高分辨率、轻量化、低功耗、高实时性和人眼安全方向发展,而目前国内的相关研究仍处于实验室阶段,与国外相比还存在一定差距。文章最后以用户需求为例,从设计的角度对机载 3D探测成像系统进行了分析,讨论了该系统在测距机制、扫描机构、探测器、数据处理和显示等方面的处理。

     

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出版历程
  • 收稿日期:  2011-01-12
  • 修回日期:  2011-03-13
  • 刊出日期:  2011-06-25

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