Effectiveness Evaluation of Anti-terrorism Operation of Small Unmanned Aerial Vehicle with Integrated Detection and Attack_Vol. 2 No. 1 (JSSE 2025)_Journal of Safety Science and Engineering (ISSN: 3005-5814)

Home > Journal of Safety Science and Engineering (ISSN: 3005-5814) > Vol. 2 No. 1 (JSSE 2025) >

Effectiveness Evaluation of Anti-terrorism Operation of Small Unmanned Aerial Vehicle with Integrated Detection and Attack

Download PDF

DOI: https://doi.org/10.62517/jsse.202508101

Author(s)

Feng Xu1, Yongli Li2,*

Affiliation(s)

1Postgraduate Brigade of Engineering University of PAP, Xi'an, China 2College of Equipment Management and Support of Engineering University of PAP, Xi'an, China *Corresponding Author.

Abstract

Small unmanned aerial vehicle UAV is playing an increasingly important role in the anti-terrorism operation of the armed police. How to accurately evaluate its anti-terrorism operational effectiveness in order to achieve its optimal configuration and efficient use in the anti-terrorism operation has become the focus of current research. By using the fuzzy analytic hierarchy process, the effectiveness evaluation model of its anti-terrorism operation is established, which is quantified by combining qualitative indicators with quantitative indicators, and evaluated with an example. Finally, combined with data analysis, some suggestions are put forward to further improve the effectiveness of its anti-terrorism operations, which will provide theoretical support for the better use of this kind of UAV in the next anti-terrorism operations.

Keywords

Reconnaissance and Strike Integrated UAV; Anti-Terrorism Operation; Fuzzy Hierarchy Evaluation Method; Evaluation Model; Operational Effectiveness

References

[1]Shan Z C. Evaluation of UAV Combat Capability Based on AHP and Fuzzy Analytic Hierarchy Process. Ship Electronic Engineering, 2024, 44(6): 128-132. [2]Xu G H, Dong Y F, Yue Y, et al. Evaluation of combat capability of UAV based on reconnaissance mission. Firepower and Command Control, 2016, 41(7): 60-64. [3]Ma Y L, Shao Q F, et al. Evaluation theory and method and its military application. Beijing: National Defense Industry Press, 2013: 45-103. [4]Du Z B, Duan Y, Chen J Z, et al. Evaluation method of mission capability of inspection and strike integrated UAV based on flight test. Journal of Weapon Equipment Engineering, 2019, 40(6): 39-42. [5]Li Q, Wei X L, Li S H, et al. Matter-element extension evaluation of cooperative combat capability of manned aircraft/unmanned aircraft. Firepower and Command and Control, 2024, 49(5): 9-17. [6]Zhang H F, Han F L, Pan C P. Evaluation of combat capability of inspection and strike integrated UAV based on DBN. Electro-optic and Control, 2019, 26(4): 77-80+85. [7]Luo J, Zhang Y N. Evaluation method of UAV combat capability based on improved Grey-AHP. Air and Space Defense, 2022, 5(2): 1-7. [8]Kou K H, Liu D P, Qian F, et al. Research on evaluation method of UAV combat capability based on improved analytic hierarchy process. Ship Electronic Engineering, 2023, 43(2): 110-114. [9]Qu G M, Dong Y F, Yue Y. Combat capability evaluation of ground attack UAV. Firepower and Command Control, 2016, 41(4): 145-149. [10]Wang H Q, Mou Z L, Guo Y Z. Evaluation of UAV's precise support capability based on AHP and fuzzy comprehensive evaluation. Ship Electronic Engineering, 2021, 41(5): 109-112.