智能无人作战系统是国际军事竞争新焦点,美国居于前茅。分析了智能无人作战系统基本特点、重要影响,归纳了美军在智能无人作战系统建设方面的总体性构想和规律性模式;针对智能无人作战系统的发展,探讨了作战概念设计、能力/效能评估、规模结构预测、智能标准体系编制与技术产业战略布局。
The intelligent unmanned combat system is a new focus in the international military competition, and the United States is in the leading position of its development. The intelligent unmanned combat system's main characteristics and its influences on the warfare are analyzed in this paper. With the applications in a foreign army as examples, we can see the general pictures and the regular patterns of the construction of the intelligent unmanned combat system. Finally, some suggestions are made on the combat concept design, the capability/effectiveness evaluation, the scale-structure calculation, the intelligent standard and the technical industry's strategic blueprint.
[1] 高富营. 军事智能论[M]. 北京:国防大学出版社, 2006. Gao Fuying. Military intelligence[M]. Beijing:National Defense University Press, 2006.
[2] Massachusetts Institute of Technology. MIT technology review[R]. Massachusetts:MIT, 2017.
[3] 林聪容. 智能无人化作战系统及其关键技术[J]. 国防技术基础, 2014, 9(5):30-34. Lin Congrong. Intelligent and unmanned combat system and its key technology[J]. Technology Fundation of National Defense, 2014, 9(5):30-34.
[4] 比尔·耶纳. 无人机改变现代战争[M]. 丁文锐, 译. 北京:海军出版社, 2016. Bill Jenne. Unmanned aircrafts change modern war[M]. Ding Wenrui, trans. Beijing:Navy Press, 2016.
[5] 李婷婷. 美军军事智能化研究现状与启示[C]//第五届中国指挥控制大会论文集. 北京:中国指挥控制学会, 2017:90-94. Li Tingting. Introduction and inspiration to military intelligent of america[C]//Proceeding of 5th Chinese Institute of Command and Control Conference. Beijing:Chinese Institute of Com-mand and Control, 2017:90-94.
[6] Jesse E, Lisa S, Gabriel C. Assessing the third offset strategy[R]. Washington DC:CSIS,2017.
[7] 张锦涛, 丁晓松. 外军无人系统建设规划概览[M]. 南京:南京大学出版社, 2015. Zhang Jintao, Ding Xiaosong. Review of foreign army's un-manned system construction plan[M]. Nanjing:Nanjing Univer-sity Press, 2015.
[8] 蒋琪, 申超, 张冬青. 认知/动态与分布式作战与导弹装备发展[J]. 战术导弹技术, 2016(3):1-6. Jiang Qi, Shen Chao, Zhang Dongqin. Cognitive/dynamic and distributed combat and development of missile equipment[J]. Tactical Missile Technology, 2016(3):1-6.
[9] 李杰, 李兵, 毛瑞芝, 等. 无人系统设计与集成[M]. 北京:国防工业出版社, 2014. Li Jie, Li Bing, Mao Ruizhi, et al. Unmanned system design and integration[M]. Beijing:National Defense Industry Press, 2014.
[10] Office of the Secretary of Defense. Unmanned systems inte-grated roadmap FY2013-2038[R]. Washington DC:DoD, 2013.
[11] Office of the Secretary of Defense. Unmanned systems inte-grated roadmap FY2011-2036[R]. Washington DC:DoD, 2011.
[12] Office of the Secretary of Defense. FY2009-2034 unmanned systems integrated roadmap[R]. Washington DC:DoD, 2009.
[13] U. S. Navy. Surface force strategy[R]. Washington DC:USN, 2017.
[14] 国家标准化委员会. 人工智能标准化白皮书2018[R]. 北京:国家标准化委员会, 2018. Standardization Administration of People's Republic of Chi-na. Artificial intelligence standardization white paper 2018[R]. Beijing:Standardization Administration of People's Re-public of China, 2018.
[15] Greg A, Taniel C. Artificial intelligence and national security[R]. Massachusetts:Harvard University, 2017.
