随着智能化无人舰艇在军事领域不断发展与应用,有人节点与无人节点的协同控制成为最大化发挥作战性能的有效手段。本文在对无人舰艇、有人舰艇以及有人/无人舰艇协同作战的优点进行总结的基础上,提出基于感知-调整-决策-行动(Observe-Orent-Decide-Act,OODA)的混合式协同决策中水面有人/无人舰艇协同控制框架,该框架描述了有人节点与无人节点在协同决策控制中的交互部分与无人节点和有人节点的具体分工与流程。最后本文对协同侦察预警与协同作战攻击2个特定任务场景在OODA不同层面的协同进行阐述与分析。
With the continuous development and application of intelligent unmanned boats in the military field, collaborative decision-making control between manned and unmanned nodes has become an effective means to maximize combat performance. On the basis of summarizing the advantages of unmanned boats, manned boats, and manned/unmanned boat collaborative operations, this article proposes a framework for manned/unmanned boat collaborative decision control in hybrid collaborative decision-making based on OODA. This framework describes the interaction between manned nodes and unmanned nodes in collaborative decision control, as well as the specific division of labor and process between unmanned nodes and manned nodes. Finally, the collaborative decision-making of manned/unmanned vehicles is analyzed and studied from two aspects: collaborative reconnaissance warning and collaborative combat attack.
2024,46(17): 127-131 收稿日期:2024-6-24
DOI:10.3404/j.issn.1672-7649.2024.17.021
分类号:U675.95
作者简介:王琦(1999-),女,硕士研究生,研究方向为水面有人/无人舰艇协同作战效能评估
参考文献:
[1] 冯炜, 崔东华, 夏天冰, 等. 国外无人船集群运用特点分析及其应对启示[J]. 中国舰船研究, 2023, 18(1): 1-12.
FENG Wei, CUI Donghua, XIA Tianbing, et al. Analysis of characteristics of foreign unmanned surface vehicle swarm combat application and proposed countermeasures[J]. Chinese Journal of Ship Research, 2023, 18(1): 1-12.
[2] 鲍凌志, 杜家辉, 胡辛明, 等. 无人艇集群控制技术研究综述[J]. 自然杂志, 2023, 45(3): 207-16.
[3] LEE CE, BAEK J, SON J, et al. Deep AI military staff: cooperative battlefield situation awareness for commander's decision making[J]. Journal of Supercomputing, 2023, 79(6): 6040-6069.
[4] 刘松, 徐洋洋. 国外海上有人-无人协同作战发展研究[J]. 电子技术, 2021, 50(7): 162-165.
[5] 王得朝, 金霄, 陈浙梁, 等. 中大型无人水面舰艇及编队协同发展分析[J]. 现代防御技术, 2021, 49(4): 7-14+42.
[6] LEE S, ???, ???, et al. Multi-agent based manned/unmanned collaboration system for combatant’s battlefield situation awareness[J]. Journal of the Institute of Electronics and Information Engineers, 2022, 59(2): 126-34.
[7] JUNG B, OH J, SEOL H, et al. Deriving priorities between autonomous functions of unmanned aircraft using AHP analysis: focused on MUM-T for air to air combat[J]. Journal of Korean Society of Industrial and Systems Engineering, 2022, 45(1): 10-19.
[8] 王勇, 王聘, 李关防, 等. 海上无人集群有人/无人协同控制架构[J]. 指挥控制与仿真, 2022, 44(5): 1-5.
[9] 杨震. 面向有人-无人平台协同决策的策略智能推荐技术研究 [D]. 长沙: 国防科技大学, 2018.
[10] WANG Z, WANG C, NIU Y, et al. Mixed-initiative manned-unmanned teamwork using coactive design and graph neural network[C]// Proceedings of the 3rd International Conference on Unmanned Systems (ICUS), Harbin, PEOPLES R CHINA, 2020.
[11] 于水星, 潘秋丰, 张向文, 等. 基于OODA环的无人指控系统协同机制研究[C]// 2022年无人系统高峰论坛(USS2022), 中国陕西西安, 2022.
[12] 邹明胤, 朱晓敏, 包卫东, 等. 有人/无人集群任务规划系统集成框架[J]. 指挥与控制学报, 2023, 9(1): 45-57.
[13] 张玉营. 预警机与无人机对海协同探测仿真系统设计与实现[J]. 电子技术与软件工程, 2022(11): 204-207.
[14] 叶辛宁. 有人/无人机协同对地攻击智能决策研究 [D]. 南京: 南京航空航天大学, 2021.
[15] 许莺. 有人机/无人机协同作战技术初探[C]//第六届中国指挥控制大会, 中国北京, 2018.
