Journal of Applied Optics, Volume. 45, Issue 3, 495(2024)

Research on concept of anti-swarm combat of unmanned rotorcraft airborne laser weapon

Shuiliang ZHOU*... Xin JIN, Yuanqing LI and Yuansong ZENG |Show fewer author(s)
Author Affiliations
  • AVIC Manufacturing Technology Institute, Beijing 100024, China
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    Figures & Tables(9)
    Images of DARPA Gremlins UAV swarm system
    Images of Perdix mini UAV swarm system
    Images of LOCUST Coyote UAV swarm system
    Related advancements of laser weapons
    Schematic diagram of combat mode
    Schematic diagram of lethal range
    Schematic diagram of strike process
    Schematic diagram of killing chain
    • Table 1. Mainstream countermeasures of UAV swarm

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      View in Article

      Table 1. Mainstream countermeasures of UAV swarm

      拦截方式工作机理打击效果作战特点
      高炮及导弹等硬杀伤利用雷达等告警设备探测目标,通过发射物理弹药进行直接打击击伤、击毁 来袭空中目标探测难度高、拦截概率及稳定性较低,反应延迟高,成本效益低,射速受限,易受干扰。
      激光武器使用高能激光照射目标,造成热效应和结构破坏击伤、击毁 来袭空中目标抗干扰能力强,命中精度高,作战灵活,但受环境条件限制,适合中近程防空和对抗低速、小型目标。
      电磁武器电磁干扰阻断 技术发射定向射频信号,干扰目标电子系统,导致其失效干扰来袭空中目标技术门槛相对较低,部署灵活,成本较低,但干扰范围和数量有限,作战效能评估困难。
      微波波束武器 (高功率微波)利用微波的场效应和热效应,通过高增益天线发射高功率微波,对目标造成损伤远距干扰、中距失能、 近距毁伤来袭空中目标具有全天候作战能力,快速响应,高可靠性,适合对抗大量小型、慢速无人机,但效果可能受热晕、衍射和散射影响。
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    Shuiliang ZHOU, Xin JIN, Yuanqing LI, Yuansong ZENG. Research on concept of anti-swarm combat of unmanned rotorcraft airborne laser weapon[J]. Journal of Applied Optics, 2024, 45(3): 495

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    Paper Information

    Category: Research Articles

    Received: Feb. 22, 2024

    Accepted: --

    Published Online: Jun. 2, 2024

    The Author Email: ZHOU Shuiliang (zhoushuiliangPaper@126.com)

    DOI:10.5768/JAO202445.0310002

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