Journal of Applied Optics, Volume. 43, Issue 4, 557(2022)

Development of ship-borne electro-optical tracking and fire control system

Weibin ZHONG
Author Affiliations
  • [in Chinese]
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    Figures & Tables(11)
    Composition block diagram of ship-borne electro-optical tracking and fire control system
    MSP500 electro-optical system
    Medusa MK4 electro-optical system
    2500 electro-optical system
    Toplite electro-optical system
    SeaFLIR 280-HD electro-optical system
    SeaFLIR 380-HD electro-optical system
    EOS 500 electro-optical system
    EOMS NG electro-optical system
    PASEO electro-optical system
    • Table 1. Comparison of foreign ship-borne electro-optical tracking and fire control systems

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      Table 1. Comparison of foreign ship-borne electro-optical tracking and fire control systems

      名称指向器结构范围传感器配置作用距离与火控关系
      德国MSP500光电系统U型方位:n×360°黑白电视长波热像仪1.54 μm激光测距机舰船32 km飞机20 km分立式
      俯仰:−40°~+85°
      意大利“梅杜莎MK4”光电系统U型方位:n×360°黑白电视中波热像仪1.54 μm激光测距机舰船20 km分立式
      俯仰:−25°~+80°
      英国2500型光电系统U型方位:n×360°彩色电视中波热像仪1.54 μm激光测距机攻击机21.8 km直升机15.2 km导弹8.8 km护卫舰30.8 km综合式
      以色列Toplite光电系统U型方位:n×360°或−165°~+165°黑白电视彩色电视三视场中波热像仪长波热像仪1.54 μm激光测距机激光指示器小型水面目标17 km分立式
      俯仰:−35°~+85°或−85°~+35°
      瑞典EOS 500光电系统T型方位n×360°彩色跟踪相机彩色放大相机中波热像仪1.54 μm激光测距机分立式
      俯仰:−45°~+85°
      法国EOMS NG光电系统U型方位:n×360°全色电视摄像机双波段红外相机1.54 μm激光测距机亚音速导弹16 km超音速导弹27 km固定翼18 km综合式
      俯仰:−20°~+65°
      美国FLIR公司280-HDU型方位:n×360°昼光电视摄像机微光夜视仪1280×720 pixel中波热像仪640×480短波红外1.54 μm激光测距机激光照射器综合式
      380-HDU型方位:n×360°彩色高清微光电视彩色高清近红外电视640×512 pixel长波热像仪1280×720 pixel中波热像仪短波红外1.54 μm激光测距机
      俯仰:−120°~+30°
      法国PASEO系统NSU型方位:n×360°高清彩色摄像机中波热像仪1.54 μm激光测距机综合式
      XLRU型方位:n×360°高分辨率摄像机超长距电视摄像机中波热像仪短波红外1.54 μm激光测距机
      IRSTU型方位:n×360°高分辨率摄像机中波热像仪1.54 μm激光测距机护卫舰30 km战斗机22 km直升机18 km导弹12 km
      俯仰:−20°~+45°
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    Weibin ZHONG. Development of ship-borne electro-optical tracking and fire control system[J]. Journal of Applied Optics, 2022, 43(4): 557

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    Paper Information

    Category: REVIEWS

    Received: Jan. 28, 2022

    Accepted: --

    Published Online: Aug. 10, 2022

    The Author Email:

    DOI:10.5768/JAO202243.0409001

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