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微光夜视器件划代方法初探 被引量:16

Preliminary study on distinguishment method of low-level-light night vision devices
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摘要 随着微光夜视技术不断发展,微光夜视器件呈现出了品种多、性能差异大、应用领域广的特点,如何从众多的微光夜视器件中梳理出其发展主线,已成为微光夜视器件从业者的研究热点。回顾了零代、一代、二代、三代、超二代微光夜视器件的发展历程,总结归纳了行业公认的零代、一代、二代、超二代、三代微光夜视器件的划代方法,并提出了“四代”微光夜视器件的概念,同时对非典型的几种微光夜视器件在微光夜视器件技术领域中所处的位置进行了说明,绘制了“树状图”,以便读者能够直观、准确、全面地了解每种微光夜视器件的技术特点以及它们在微光夜视器件技术领域所处的位置,对从事微光夜视器件技术研究者具有一定参考作用。 With the continuous development of low-level-light(LLL) night vision technology, the LLL night vision devices show the characteristics of many varieties, large performance differences, and wide application fields. How to sort out the main line of development from numerous LLL night vision devices has become a research hot spot for practitioners of low-light night vision devices. The development history of the zerogeneration, first-generation, second-generation, third-generation, and ultra-second generation LLL night vision devices was reviewed. The industry-recognized methods for distinguishing the zero-generation, firstgeneration, second-generation, ultra-second generation, and third-generation low-light night vision devices were summarized. The concept of the fourth-generation low-light night vision device was put forward, and at the same time the position of several atypical low-light night vision devices in the technical field of low-light night vision devices was explained, and a tree diagram was drew, so that the technical characteristics of each low-light night vision device and their position in the field of low-light night vision device technology could be intuitively, accurately, and comprehensively understood. The proposed perspectives have a certain reference role for researchers engaged in low-light night vision device technology.
作者 程宏昌 石峰 李周奎 师宏立 拜晓锋 闫磊 姚泽 王淼鑫 李燕红 CHENG Hongchang;SHI Feng;LI Zhoukui;SHI Hongli;BAI Xiaofeng;YAN Lei;YAO Ze;WANG Miaoxin;LI Yanhong(Key Laboratory of Low-Light-Level Night Vision Technology,Xi'an 710065,China;Kunming Physics Research Institute,Kunming 650223,China;North Night Vision Technology Co.,Ltd.,Kunming 650223,China)
出处 《应用光学》 CAS CSCD 北大核心 2021年第6期1092-1101,共10页 Journal of Applied Optics
基金 兵器实验室基金(J20180104)。
关键词 微光夜视 像增强器 灵敏度 分辨力 信噪比 low-level-light night vision image intensifier sensitivity resolution signal-to-noise ratio
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