[1]尹俊杰,吕日毅,梁 红.空投磁探无人机集群应召反潜作战效能分析[J].南京理工大学学报(自然科学版),2020,44(06):752-758.[doi:10.14177/j.cnki.32-1397n.2020.44.06.016]
 Yin Junjie,Lv Riyi,Liang Hong.Combat effectiveness analysis of on-call antisubmarine byairdropped magnetic anomaly detection UAV swarms[J].Journal of Nanjing University of Science and Technology,2020,44(06):752-758.[doi:10.14177/j.cnki.32-1397n.2020.44.06.016]
点击复制

空投磁探无人机集群应召反潜作战效能分析()
分享到:

《南京理工大学学报》(自然科学版)[ISSN:1005-9830/CN:32-1397/N]

卷:
44卷
期数:
2020年06期
页码:
752-758
栏目:
出版日期:
2020-12-31

文章信息/Info

Title:
Combat effectiveness analysis of on-call antisubmarine byairdropped magnetic anomaly detection UAV swarms
文章编号:
1005-9830(2020)06-0752-07
作者:
尹俊杰吕日毅梁 红
中国人民解放军92728部队,上海 200436
Author(s):
Yin JunjieLv RiyiLiang Hong
Unit 92728 of PLA,Shanghai 200436,China
关键词:
磁探 无人机 集群 应召反潜 作战效能
Keywords:
magnetic anomaly detection unmanned aerial vehicles swarms on-call antisubmarine combat effectiveness
分类号:
TJ67
DOI:
10.14177/j.cnki.32-1397n.2020.44.06.016
摘要:
为评估磁探无人机集群应召反潜作战效能,根据典型磁探仪应召反潜使用方法,建立了基于多平行段搜索的空投磁探无人机集群应召反潜数学模型。通过仿真评估了反潜巡逻机应召反应时间、磁探无人机数量和搜索范围大小对应召反潜作战效能的影响。仿真结果表明:缩短应召反应时间,适当增加磁探无人机数量,可以有效提高磁探无人机集群应召反潜作战效能。
Abstract:
In order to evaluate the antisubmarine combat effectiveness of magnetic anomaly detection(MAD)unmanned aerial vehicles(UAVs)swarms on-call,a mathematical model is established based on multi parallel segment search and the typical methods of magnetic detector. The influences of antisubmarine patrol plane on-call response time,MAD UAV number and search scope to the combat effectiveness are evaluated by simulation. The simulation results show that on-call antisubmarine combat effectiveness of MAD UAV swarms is effectively improved by shortening the response time of antisubmarine patrol plane and increasing the number of MAD UAV properly.

参考文献/References:

[1] 成建波,孙心毅. 航空磁异常探潜技术发展综述[J]. 声学与电子工程,2018(3):46-49.
Cheng Jianbo,Sun Xinyi. Review on the development of airborne magnetic anomaly detection technology[J]. Acoustics and Electronics Engineering,2018(3):46-49.
[2]章尧卿,王光源,林芳慧. 反潜巡逻机磁探仪检查搜潜效能研究[J]. 兵工自动化,2012,31(6):4-6.
Zhang Yaoqing,Wang Guangyuan,Lin Fanghui. Research on efficiency of checking search submarine by magnetic anomaly detector on antisubmarine patrol aircraft[J]. Ordnance Industry Automation,2012,31(6):4-6.
[3]徐梁,潘宣宏,韩鹏. 有/无人机协同使用声纳浮标应召搜潜研究[J]. 火力与指挥控制,2019,44(7):95-99.
Xu Liang,Pan Xuanhong,Han Peng. Research on the cooperative use of sonobuoy to search for potential with UAV[J]. Fire Control and Command Control,2019,44(7):95-99.
[4]杨日杰,熊雄. 基于潜艇磁偶极子模型的航空磁探潜探测宽度模型与仿真[J]. 兵工学报,2014,35(9):1458-1462.
Yang Rijie,Xiong Xiong. Research on model and simulation of airborne magnetic anomaly detection sweep width based on magnetic dipole model[J]. Acta Armamentarii,2014,35(9):1458-1462.
[5]谭安胜,王新为,尹成义. 反潜巡逻机磁探仪区域搜索研究[J]. 电光与控制,2018,25(8):1-6.
Tan Ansheng,Wang Xinwei,Yin Chengyi. Research on regional search by anti-submarine patrol aircraft using magnetic anomaly detector[J]. Electronics Optics and Control,2018,25(8):1-6.
[6]屈也频. 反潜巡逻飞机搜潜辅助决策系统建模与仿真研究[D]. 长沙:国防科学技术大学航天与材料工程学院,2009.
[7]蒋志忠,杨日杰,熊雄,等. 磁探仪应召搜潜建模与仿真[J]. 海军航空工程学院学报,2011,26(1):75-80.
Jiang Zhizhong,Yang Rijie,Xiong Xiong,et al. Modeling and simulation for on-call searching submarine by magnetic anomaly detectors(MAD)[J]. Journal of Naval Aeronautical and Astronautical University,2011,26(1):75-80.
[8]章尧卿,王光源. 反潜巡逻机使用磁探仪应召搜潜效能模型[J]. 兵工自动化,2018,37(12):1-4.
Zhang Yaoqing,Wang Guangyuan. Latent efficiency model of anti-submarine patrol plane using magnetic finder[J]. Ordnance Industry Automation,2018,37(12):1-4.
[9]向前,何希盈. 无人海上航行器磁探搜潜方法研究[J]. 兵器装备工程学报,2019,40(12):16-19.
Xiang Qian,He Xiying. Research on submarine searching method of unmanned marine vehicle with magnetic anomaly detector[J]. Journal of Ordnance Equipment Engineering,2019,40(12):16-19.
[10]蒋志忠,杨日杰,张林琳,等. 基于先验目标分布的磁探仪应召搜潜最佳圆周搜索半径研究[J]. 兵工学报,2011,32(9):1099-1105.
Jiang Zhizhong,Yang Rijie,Zhang Linlin,et al. Study on optimal circle search radius of magnetic anomaly detector on call based on priori target distribution[J]. Acta Armamentarii,2011,32(9):1099-1105.

相似文献/References:

[1]姚克明,刘燕斌,陆宇平,等.火星探测无人机建模与拉起平飞控制[J].南京理工大学学报(自然科学版),2013,37(06):950.
 Yao Keming,Liu Yanbin,Lu Yuping,et al.Modeling and pull level flight control for exploration unmanned aerial vehicle on Mars[J].Journal of Nanjing University of Science and Technology,2013,37(06):950.
[2]刘云平,周玉康,张永宏,等.基于滑模PID的飞行机械臂稳定性控制[J].南京理工大学学报(自然科学版),2018,42(05):525.[doi:10.14177/j.cnki.32-1397n.2018.42.05.003]
 Liu Yunping,Zhou Yukang,Zhang Yonghong,et al.Research on stability control of flight manipulatorbased on sliding mode PID[J].Journal of Nanjing University of Science and Technology,2018,42(06):525.[doi:10.14177/j.cnki.32-1397n.2018.42.05.003]
[3]邓 力.无人机与民航客机碰撞概率研究[J].南京理工大学学报(自然科学版),2019,43(01):122.[doi:10.14177/j.cnki.32-1397n.2019.43.01.017]
 Deng Li.Research of collision probability of unmanned aerialvehicles and civil airplane[J].Journal of Nanjing University of Science and Technology,2019,43(06):122.[doi:10.14177/j.cnki.32-1397n.2019.43.01.017]

备注/Memo

备注/Memo:
收稿日期:2020-05-07 修回日期:2020-10-07
作者简介:尹俊杰(1989-),男,博士,主要研究方向:飞行器总体设计,E-mail:330356322@qq.com。
引文格式:尹俊杰,吕日毅,梁红. 空投磁探无人机集群应召反潜作战效能分析[J]. 南京理工大学学报,2020,44(6):752-758.
投稿网址:http://zrxuebao.njust.edu.cn
更新日期/Last Update: 2020-12-30