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地空无人平台协同作战应用研究 被引量:11

Research on the Ground-air Unmanned Platform Cooperative Combat Application
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摘要 战争即将进入智能化时代,无人装备将成为未来战场主角。地空无人平台协同应用是未来战场的必然趋势。基于未来战场复杂作战环境需求,针对地空无人平台协同作战应用进行研究。合理分析协同作战应用的必然性;从协同侦察感知、协同指挥控制、协同支援保障、协同防御警戒4个领域进行作战应用研究,并分析其技术基础及可行性;列出地空协同运用存在的难点并给出合理的意见建议,为陆军作战、编制及装备体系的论证规划提供参考。 The war is about to enter the era of intelligence,unmanned equipment will become the protagonist of the future battlefield.The ground-air unmanned platform cooperative combat application will become an inevitable trend.This paper is based on the demand for complex combat environment of future battlefield,a research on the ground-air unmanned platform cooperative combat application is made.Firstly,a reasonable analysis of the necessity of cooperative combat application is done.Secondly,cooperative combat application research is based on four aspects including cooperative reconnaissance and perception,cooperative command and control,cooperative support guarantee,cooperative defense and guard.The technical foundation and feasibility are analyzed.At last,the difficulties existing in ground-air cooperative application are listed and reasonable advices are given.The paper can provide reference for the demonstration of the planning of combat,organization and equipment system of army.
作者 张宇 张琰 邱绵浩 刘西侠 卢方杰 ZHANG Yu;ZHANG Yan;QIU Mian-hao;LIU Xi-xia;LU Fang-jie(Department of Vehicle Engineering,Army Academy of Armored Force,Beijing 100072,China;Regiment of Graduate Students,Army Academy of Armored Force,Beijing 100072,China)
机构地区 陆军装甲兵学院车辆工程系 陆军装甲兵学院研究生大队
出处 《火力与指挥控制》 CSCD 北大核心 2021年第5期1-5,11,共6页 Fire Control & Command Control
基金 军队科研计划基金资助项目。
关键词 地空协同 无人平台 作战应用 武器装备 指挥控制 ground-air cooperation unmanned platform combat application weapon equipment command control
分类号 TJ8 [兵器科学与技术—武器系统与运用工程] E271 [军事—军事理论]
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  • 1Chaimowicz L, Cowley A, Gomez-Ibanez D, et al. Deploying air-ground multi-robot teams in urban environments[C]// Proceedings of the International Wrokshop on Multi-Robot Systems. Washington, USA: Kluwer, 2005: 223-234.
  • 2Chaimowicz L, Grocholsky B, Keller J F, et al. Experiments in muhirobot air-ground coordination [C]//Proceedings of the 9th International Conference on Robotics and Automation. Barcelona, Spain: IEEE Press, 2004, 4:4 053-4 058.
  • 3Grocholsky B, Bayraktar S, Kumar V, et al. Synergies in feature localization by air ground robot teams [C]// Proceedings of the 9th International Conference on Robotics and Automatim Barcelona, Spain: IEEE Press, 2004, 4: 352-361.
  • 4Pinheiro P, Lima P. Bayesian sensor fusion for cooperative object localization and world modeling [C]//Proceedings of the 8th Conference on Intelligent Autonomous Systems. Amsterdam, Netherlands: IAS Press, 2004: IAS-8.
  • 5Stroupe A W, Martin M C, Baleh T. Dist,ibuted sensor fusion for object position estimation by multirobot systems[C]// IEEE International Conference on Robotics and Automation. Seoul, Korea:IEEE Press, 2001, 4:1 092-1 098.
  • 6Stephen M, Rock, Eric W. Frew, Hank Jones, etc. Combined CDGPS and Vision-based control of a small autonomous helicopter[C]// American Control Conterenc~ Philadelphia, USA: IEEE Press, 1998: 694-698.
  • 7Schraml S, Belbachir A N, Milosevic N, et al. Dynamic stereo vision system for real-time tracking [C]// IEEE International Midwest Symposium on Circuits and Systems. Seattle, USA: IEEE Press, 2010:1 409-1 412.
  • 8Bosch S, Lacroix S, Caballero F. Autonomous detection of safe landing areas for an UAV from monocular images[J] Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems. Beijing, China: IEEE Press, 2006:5 522-5 527.
  • 9Gu F, Wang Z, He Y, et al. Theoretical and experimental study of uncertain set based moving target localization using multiple robots [ C ]// IEEE International Conference on Robotics and Biomimetics. Thailand: IEEE Press, 2011:1 646-1 651.
  • 10Gu F, Wang Z, He Y, et al. Experimental study of vision sensor based multiple robots active cooperative observation using Multi-RFRs testbed [C]// IEEE International Conference on Robotics and Biomimetics. hailand: IEEE Press, 2011:2 417-2 418.

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火力与指挥控制
2021年 第5期

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