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| Research on the Combat Issues of Key-Point Defense Miniature UAV Raid in Critical Cities |
| SUN Liang1,2, WANG Mingyu2, ZHOU Suhua3, LEI Rongqiang3 |
| 1. Unit 95861 of PLA, Jiuquan 735018, Gansu, China; 2. Air Force Engineering University, Xi'an 710051, Shaanxi, China; 3. Unit 95983 of PLA, Jiuquan 732750, Gansu, China |
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Abstract In military conflicts, violent terrorist attacks and other operations that have happened in recent years, miniature UAVs and drone swarms have become an offensive threat that cannot be ignored. This paper focused on the operational characteristics of key-point defence against UAV swarm target raids in critical cities and studied the key issues directed to the defence systems' firepower allocation, equipment deployment, and coordination strategy. An extensive sample simulation verification was conducted based on the mission-level simulation model. The results show that the dual-loop deployment system generally has a slightly higher overall interception rate, cost-effectiveness ratio, and defence success rate than single-loop deployment. This paper provides methods and countermeasures for confronting small-scale swarm raids.
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Received: 03 March 2025
Published: 23 May 2025
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| [1] |
YAN Jun, GU Cunfeng, KONG Deyong, GONG Jiangkun. Research on Radar Detection of Drones Using Micro-Doppler Signals[J]. Air & Space Defense, 2025, 8(1): 10-16. |
| [2] |
WANG Leting, HUANG Junsong, MA Shihao, ZHANG Chenlu, DAI Jie. Research on the Development of Anti-Drone Technology for Surface Ships[J]. Air & Space Defense, 2024, 7(4): 121-126. |
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2025, Vol. 8 
