With the maturity of unmanned technology, the phenomenon of black flight of unmanned aerial vehicle (UAV) is more frequent in China, which has seriously affected normal social order and national sovereignty security. Through the analysis requirement of UAV countermeasures and existing mature and related technologies, a relatively complete technical pedigree has been formed. For typical UAV, the paper proposes a preliminary thinking of countermeasures, then investigates the key technologies for UAV countermeasures and existing problems, so as to guide the counter system construction for black flight UAV.
XIANG Wenhao
,
WANG Dong
,
LIU Jia
,
DONG Fangchen
,
SUN Wen
. UAV-counter requirements analysis and technical pedigree[J]. Science & Technology Review, 2020
, 38(21)
: 150
-158
.
DOI: 10.3981/j.issn.1000-7857.2020.21.019
[1] 孙非, 何昌见, 曲一, 等."低慢小" 无人飞行器反制技术综述[J]. 中国安全防范技术与应用, 2018(6):54-57.
[2] 刘丽, 魏雁飞, 张宇涵. 美军反无人机技术装备发展解析[J]. 航天电子对抗, 2017, 33(1):60-64.
[3] 谢谙. 美国陆军发布反无人机技术手册(上)[J]. 现代军事, 2017(7):91-100.
[4] 黄伟. 无人机健康发展亟需综合施策[EB/OL]. (2017-05-19)[2019-01-02]. http://www.caacnews.com.cn/zk/zj/huangwei/201705/t20170519_1214778.html.
[5] 柏如玉. 国内外反无人机技术发展分析[J]. 中国安防, 2016(9):31-34.
[6] Müller W, Reinert F, Pallmer D. Open architecture of a counter UAV system[C]//Open Architecture/Open Business Model Net-Centric Systems and Defense Transformation 2018. Bellingham:International Society for Optics and Photonics, 2018:1065106.
[7] 蔡亚梅, 姜宇航, 赵霜. 国外反无人机系统发展动态与趋势分析[J]. 航天电子对抗. 2017(2):59-64.
[8] 刘玉文, 廖小兵. 反无人机技术体系基本框架构建[J]. 四川兵工学报, 2015, 36(10):18-20.
[9] Sander J, Kuwertz A, Mühlenberg D, et al. High-level data fusion component for drone classification and decision support in counter UAV[C]//Open Architecture/Open Business Model Net-Centric Systems and Defense Transformation 2018. Bellingham:International Society for Optics and Photonics, 2018:106510F.
[10] Kim B H, Khan D, Choi W, et al. Real-time counterUAV system for long distance small drones using double pan-tilt scan laser radar[C]//Laser Radar Technology and Applications XXIV. Bellingham International Society for Optics and Photonics, 2019:110050C.
[11] 焦士俊, 刘剑豪. 反无人机蜂群应用运用探析[J].飞航导弹, 2019(2):50-53.
[12] Zhang W, Zhang L, Yang B, et al. The development of counter-unmanned aerial vehicle technologies[C]//Global Intelligence Industry Conference (GIIC 2018). Bellingham:International Society for Optics and Photonics, 2018:108351O.
[13] 高博, 张乃千, 范旭. 反无人机电子战发展[J]. 国防科技, 2019, 40(1):35-39.