[1] 李楠,陈练,庞衍鹏,等.无人艇装备技术发展与作战运用探析[J].舰船科学技术,2019,41(12):29-34. LI N, CHEN L, PANG Y P, et al.Analysis on key technologies evolution and application of USV[J].Ship Science and Technology, 2019, 41(12):29-34. (in Chinese) [2] Unmanned Systems Integrated Roadmap 2017—2042[EB/OL].[2018].http:∥cdn.defensedaily.com/wp-content/ uploads/post_attachment/206477.pdf. [3] 顾颖闽. 水面无人艇艇群技术发展概述[J].舰船科学技术,2019,41(23):35-38. GU Y M. Overview of technology development of the USV group[J]. Ship Science and Technology, 2019, 41(23):35-38. (in Chinese) [4] ZHOU X Y, LIU Z J, WU Z L, et al. Quantitative processing of situation awareness for autonomous ships navigation[J]. International Journal on Marine Navigation and Safety of Sea Transportation, 2019,13(1):25-31. DOI:10.12716/1001.13.01.01. [5] LIU B, CHEN Z Y, ZHANG H T, et al. Collective dynamics and control for multiple unmanned surface vessels[J]. IEEE Transactions on Control Systems Technology, 2020,28(6):2540-2547. [6] 李超,王瑞星,黄建忠,等.稀疏奖励下基于强化学习的无人集群自主决策与智能协同[J/OL].兵工学报:1-10[2022-10-11].DOI:10.12382/bgxb.2022.0177. LI C,WANG R X,HUANG J Z,et al.Autonomous decision-making and intelligent collaboration of unmanned clusters based on reinforcement learning under sparse rewards[J/OL].Acta Armamentarii:1-10[2022-10-11].DOI:10.12382/bgxb.2022.0177. [7] 胡建章,唐国元,王建军,等.水面无人艇集群系统研究[J].舰船科学技术,2019,41(4):83-88. HU J Z,TANG G Y,WANG J J,et al.Research on unmanned surface vehicle cluster system[J]. Ship Science and Technology, 2019, 41(4):83-88. (in Chinese) [8] 林龙信,张比升.水面无人作战系统技术发展与作战应用[J].水下无人系统学报,2018,26(2):107-114. LIN L X, ZHANG B S.Technical development and operational application of unmanned surface combat system[J]. Journal of Unmanned Undersea Systems, 2018, 26(2): 107-114. (in Chinese) [9] 李伟,李天伟.各国无人艇技术的军事化应用与智能化升级[J].飞航导弹,2020(10):60-62. LI W, LI T W.Militarized application and intelligent upgrade of unmanned surface vehicles in various countries[J]. Aerospace Technology, 2020(10): 60-62. (in Chinese) [10] 王宇,郭兴旺.无人系统集群海上作战应用研究[J].舰船电子工程,2019,39(12):21-25. WANG Y, GUO X W. Research on the application of unmanned system cluster in marine combat applications[J].Ship Electronic Engineering, 2019, 39(12): 21-25. (in Chinese) [11] 万接喜.外军无人水面艇发展现状与趋势[J].国防科技,2014,35(5):91-96. WAN J X. Status and development trends of foreign military unmanned surface boats[J].National Defense Technology, 2014,35(5):91-96. (in Chinese) [12] 王石,张建强,杨舒卉,等.国内外无人艇发展现状及典型作战应用研究[J].火力与指挥控制,2019,44(2):11-15. WANG S, ZHANG J Q, YANG S H, et al. Research on development status and combat applications of USVs in worldwide[J]. Fire Control & Command Control, 2019, 44(2): 11-15. (in Chinese) [13] 朱炜,张磊.现代水面无人艇技术[J].造船技术,2017(2):1-6. ZHU W,ZHANG L.Development of unmanned surface vehicl[J]. Marine Technology,2017(2):1-6. (in Chinese) [14] 杨绍卿.灵巧弹药工程[M].北京:国防工业出版社,2010. YANG S Q. Smart ammunition engineering[M].Beijing: National Defence Industry Press,2010.(in Chinese) [15] 李鹏,袁宝慧,孙兴昀,等.偏心起爆周向多爆炸成型弹丸战斗部实验研究[J].兵工学报,2017,38(3):447-453. LI P,YUAN B H,SUN X Y,et al.Experimental research on eccentric initiation MEFP warhead[J]. Acta Armamentarii, 2017,38(3):447-453.(in Chinese) [16] 郝志伟,王志军,汤雪志,等.不同材料MEFP战斗部对典型无人机的侵彻性能[J].兵器材料科学与工程,2022,45(1):61-65. HAO Z W,WANG Z J,TANG X Z,et al.Penetration performance of MEFP warheads with different materials gainst typical UAV[J]. Ordnance Material Science and Engineering, 2022,45(1):61-65.(in Chinese) [17] 刘文举,魏琳.基于集群目标的末敏弹效能仿真模型[J].弹箭与制导学报,2015,35(3):165-168,172. LIU W J,WEI L. The simulation model for the efficiency of terminal sensing ammunition against group targets[J].Journal of Projectiles,Rockets,Missiles and Guidance,2015,35(3):165-168,172. (in Chinese) [18] 尹建平,常变红,王志军.多爆炸成型弹丸战斗部设计参数对智能雷毁伤概率的影响[J].弹道学报,2007,19(2):58-61. YIN J P,CHANG B H,WANG Z J. Influence of MEFP design para meters on the killing probability of intelli gent mine[J].Journal of Ballistics, 2007,19(2):58-61.(in Chinese) [19] 尹建平.多爆炸成型弹丸战斗部技术[M].北京:国防工业出版社,2012. YIN J P. Multiple explosively formed projectile warhead technology[M].Beijing:National Defence Industry Press,2012.(in Chinese)
|