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    Journals >High Power Laser and Particle Beams >Volume 36 >Issue 4 >Page 043003 > Article
    • High Power Laser and Particle Beams
    • Vol. 36, Issue 4, 043003 (2024)
    Equivalent testing method for shielding effectiveness of miniature unmanned aerial vehicle
    Zusheng Jin1, Jianxuan Li1, Jialin Shi1, Yong Zhang1, and Guolin Li2
    Author Affiliations
  • 1Naval Research Institute, Beijing 100161, China
  • 2College of Electrical and Information Engineering, Hunan University, Changsha 410073, China
    • show less
    DOI: 10.11884/HPLPB202436.230261 Cite this Article
    Zusheng Jin, Jianxuan Li, Jialin Shi, Yong Zhang, Guolin Li. Equivalent testing method for shielding effectiveness of miniature unmanned aerial vehicle[J]. High Power Laser and Particle Beams, 2024, 36(4): 043003 Copy Citation Text show less
    Simulation model for shielding effectiveness of simplified Switchblade 300 loitering munition
    Fig. 1. Simulation model for shielding effectiveness of simplified Switchblade 300 loitering munition
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    Simulation model for shielding effectiveness of the quad-rotor UAV
    Fig. 2. Simulation model for shielding effectiveness of the quad-rotor UAV
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    Computed shielding effectiveness of the original model and large-scale model of the loitering munition
    Fig. 3. Computed shielding effectiveness of the original model and large-scale model of the loitering munition
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    Computed shielding effectiveness of the original model and large-scale model of the quad-rotor UAV
    Fig. 4. Computed shielding effectiveness of the original model and large-scale model of the quad-rotor UAV
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    Shielding effectiveness of the large-scale model of the loitering munition with different 巡飞弹扩比模型(介质材质)不同电导率参数下的屏蔽效能结果
    Fig. 5. Shielding effectiveness of the large-scale model of the loitering munition with different 巡飞弹扩比模型(介质材质)不同电导率参数下的屏蔽效能结果
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    Shielding effectiveness of the large-scale model of the quad-rotor UAV with different 四旋翼无人机扩比模型(介质材质)不同电导率参数下的屏蔽效能结果
    Fig. 6. Shielding effectiveness of the large-scale model of the quad-rotor UAV with different 四旋翼无人机扩比模型(介质材质)不同电导率参数下的屏蔽效能结果
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    Miniature UAV and its large-scale model
    Fig. 7. Miniature UAV and its large-scale model
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    System composition of equivalent testing method for shielding effectiveness
    Fig. 8. System composition of equivalent testing method for shielding effectiveness
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    Equivalent testing method for shielding effectiveness based on a large-scale model
    Fig. 9. Equivalent testing method for shielding effectiveness based on a large-scale model
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    parameteroriginal modellarge-scale model
    lengthl$ {l_1} = nl $
    frequencyf$ {f_1} = f/n $
    dielectric constant$ \varepsilon $$ {\varepsilon _1} = \varepsilon $
    permeability$ \; \mu $$ \;{ \mu _1} = \mu $
    conductivity$ \sigma $$ {\sigma _1} = \sigma /n $
    Table 1. Relations of the parameters between the original model and its large-scale model
    Abstract
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    Zusheng Jin, Jianxuan Li, Jialin Shi, Yong Zhang, Guolin Li. Equivalent testing method for shielding effectiveness of miniature unmanned aerial vehicle[J]. High Power Laser and Particle Beams, 2024, 36(4): 043003
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