[1] 高明,周帆,陈伟.地面无人作战系统的发展现状及关键技术[J].现代防御技术,2019,47(3):9-14. GAO Ming,ZHOU Fan,CHEN Wei.Development Status and Key Technologies of GUCS[J].Modern Defence Technology,2019,47(3):9-14. [2] 许彪,张宇,王超.美军无人系统蜂群技术发展现状与趋势分析[J].飞航导弹,2018(3):36-39. XU Biao,ZHANG Yu,WANG Chao.Analysis on the Status Quo and Trend of the Development of American Army Unmanned System Bee Colony Technology[J].Aerodynamic Missile Journal,2018(3):36-39. [3] 陈方舟.美军无人作战系统发展述评[J].军事文摘,2018(3):19-21. CHEN Fang-zhou.A Review of the Development of the US Unmanned Combat System[J].Military Digest,2018(3):19-21. [4] 李洪峰,孙礼明,曹涛.无人化作战力量发展浅析[J].飞航导弹,2016(10):24-27. LI Hong-feng,SUN Li-ming,CAO Tao.Analysis on the Development of Unmanned Combat Forces[J].Aerodynamic Missile Journal,2016(10):24-27. [5] 邓启文,刘书雷,沈雪石.无人装备发展动向及影响研究[J].装备学院学报,2016(1):76-79. DENG Qi-wen,LIU Shu-lei,SHEN Xue-shi.Unmanned Equipment Development Trend and Impact Research[J].Journal of Equipment College,2016(1):76-79. [6] YORK G,PACK D J.Ground Target Detection Using Cooperative Unmanned Aerial Systems[J].Journal of Intelligent&Robotic Systems,2012,65(1-4):473-478. [7] 李坡,张志雄,赵希庆.美海军无人作战平台现状及发展趋势分析[J].装备学院学报,2014(3):6-9. LI Po,ZHANG Zhi-xiong,ZHAO Xi-qing.Analysis of the Status Quo and Development Trend of the US Navy Unmanned Combat Platform[J].Journal of Equipment College,2014(3):6-9. [8] 陈方舟,黄靖皓,赵阳辉.美军无人“蜂群”作战技术发展分析[J].装备学院学报,2016(2):34-37. CHEN Fang-zhou,HUANG Jing-hao,ZHAO Yang-hui.Analysis of the Development of Combat Technology for the Unmanned “Bee Colony” of the US Military[J].Journal of Equipment College,2016(2):34-37. [9] 周光霞.美军人工智能空战系统阿尔法初探[C]//第六届中国指挥控制大会论文集(上册).北京:中国指挥与控制学会,2018:5. ZHOU Guang-xia.A study into the Alpha of the US Army Artificial Intelligence Air Combat System[C]//Proceedings of the 6th China Command and Control Conference (Volume 1).Beijing:Chinese Academy of Command and Control,2018:5. [10] 袁成.2015年DARPA航空领域发展总结[J].现代军事,2016(4):61-65. YUAN Cheng.Summary of the Development of DARPA Aviation in 2015[J].Modern Military,2016(4):61-65. [11] 黄汉桥,白俊强,周欢.智能空战体系下无人协同作战发展现状及关键技术[J].导航与控制,2019,18(1):10-18. HUANG Han-qiao,BAI Jun-qiang,ZHOU Huan.Development Status and Key Technologies of Unmanned Cooperative Operation under Intelligent Air Combat System[J].Navigation and Control,2019,18(1):10-18. [12] 金欣.外军指挥控制智能化发展跟踪研究[C]//第六届中国指挥控制大会论文集(上册).北京:中国指挥与控制学会,2018:7. JIN Xin.Research on the intelligent development of foreign military command and control[C]//Proceedings of the 6th China Command and Control Conference (Volume 1).Beijing:Chinese Academy of Command and Control,2018:7. [13] 张晓海,操新文,耿松涛.基于深度学习的军事辅助决策智能化研究[J].兵器装备工程学报,2018,39(10):162-167. ZHANG Xiao-hai,CAO Xin-wen,GEN Song-tao.Research on Intelligent Intelligence of Military Assistant Decision Based on Deep Learning[J].Journal of Ordnance Equipment Engineering,2018,39(10):162-167. [14] 付跃文,王元诚,陈珍.基于多智能体粒子群的协同空战目标决策研究[J].系统仿真学报,2018,30(11):4151-4157. FU Yue-wen,WANG Yuan-cheng,CHEN Zhen.Research on Decision-Making of Cooperative Air Combat Target Based on Multi-Agent Particle Swarm[J].Journal of System Simulation,2018,30(11):4151-4157. [15] 李聪,王勇,周欢.多无人作战飞机编队空战智能决策方法[J].火力与指挥控制,2018,43(7):26-31. LI Cong,WANG Yong,ZHOU Huan.Multi-Unmanned Combat Aircraft Formation Air Combat Intelligent Decision-Making Method[J].Firepower and Command and Control,2018,43(7):26-31. [16] 耿振余,刘思彤,李德龙.嵌入式空战训练中虚拟智能对手的生成研究[J].现代防御技术,2014,42(3):172-177,183. GENG Zhen-yu,LIU Si-tong,LI De-long.Research on Generation of Virtual Intelligent Opponents in Embedded Air Combat Training[J].Modern Defence Technology,2014,42(3):172-177,183. [17] 黄长强,唐上钦.从“阿法狗”到“阿法鹰”——论无人作战飞机智能自主空战技术[J].指挥与控制学报,2016,2(3):261-264. HUANG Chang-qiang,TANG Shang-qin.From AphaGo to Apha Eagle——On the Intelligent Autonomous Air Combat Technology of Unmanned Combat Aircraft[J].Journal of Command and Control,2016,2(3):261-264. |