平流层飞艇平台光电侦察系统关键技术

李福东; 王哲; 周峰; 安超; 曹桂丽

doi:doi:10.3788/lop51.020003

激光与光电子学进展, 2014, 51 (2): 020003, 网络出版: 2014-01-21

平流层飞艇平台光电侦察系统关键技术下载： 574次

Key Technique of Photoelectric Reconnaissance System for Stratospheric Airship

论文大纲

李福东 ^*王哲周峰安超曹桂丽

作者单位

北京空间机电研究所，北京 100094

遥感光电系统平流层飞艇 remote sensing photoelectric system stratosphere airship

摘要

平流层飞艇平台运行在距地面20 km的高度，能够长期定点悬浮或者机动巡航，是一个良好的预警、监视、跟踪平台，光电侦察系统是未来平流层飞艇监视侦察装备的核心。简述了平流层遥感相对飞机平台和卫星平台的优点，根据平流层平台的特点，分析了平流层光电探测系统相对飞机平台光电系统在探测距离方面的优势。结合国外典型的光电侦察系统现状，介绍了光电侦察系统的组成和工作原理，并在现有光电侦察系统的基础上，对未来平流层平台光电侦察系统的关键技术进行了研究，给出了相应解决方案，可以为未来平流层光电侦察系统的设计方案提供参考。

Abstract

Stratospheric airship works in stratosphere about 20 km above ground. It can cruise or belocated in the air, and has become a good platform for reconnaissance, surveillance or track. Photoelectric system is an important equipment on the stratospheric airship. The advantage of remote sensing on stratospheric platform is introduced, especially on detectable distance. The components and principle are introduced according to the typical existing photoelectric systems. Furthermore, the key technique of photoelectric system for stratospheric airship is analyzed, and the design method is explained. This paper can be referenced for the design of such systems in the future.

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李福东, 王哲, 周峰, 安超, 曹桂丽. 平流层飞艇平台光电侦察系统关键技术[J]. 激光与光电子学进展, 2014, 51(2): 020003. Li Fudong, Wang Zhe, Zhou Feng, An Chao, Cao Guili. Key Technique of Photoelectric Reconnaissance System for Stratospheric Airship[J]. Laser & Optoelectronics Progress, 2014, 51(2): 020003.

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