期刊文献+

星球探测系统的多机器人组内协作研究

On Coordination in a Multi-robot Team for Reconfigurable Mars Exploration
下载PDF
导出
摘要 建立了子机器人的控制模型,提出了分散式控制与集中式控制相结合的复合控制体系。采用动态分配ID号和由ID号确定机器人组中领导者的机制,建立了有领导者的机器人组的协作方法。其中,领导者与监控平台之间采用无线通讯,机器人组内采用CAN(control area network)总线传递控制信号。同时采用组内基于状态表匹配的控制方式。两个机器人组合利用以上机制,通过相互协调完成差速转弯的实验验证了该控制方法的可行性。 The control model of each robot in the robot team is constructed. A compound control architecture which combined the distributed and centralized control is put forward. The coordination method with a leader in the robot team was adopted. The ID number of every robot were allotted dynamically and the leader was elected according to the ID information. The wireless communication is used between the leader and the monitor platform, CAN bus and the control method based on a state table were utilized among the robot team. Finally, the experiments in which two robots turned around with differential velocity validate the control architecture.
出处 《机械科学与技术》 CSCD 北大核心 2009年第3期416-420,共5页 Mechanical Science and Technology for Aerospace Engineering
基金 国家"863"高科技项目(2006AA04Z254)资助
关键词 控制模型 探测系统 多机器人 协作 control model Mars exploration multi-robot collaboration
  • 相关文献

参考文献8

  • 1刘方湖,陈建平,马培荪,曹志奎.行星探测机器人的研究现状和发展趋势[J].机器人,2002,24(3):268-275. 被引量:37
  • 2Koshiyama A, Yamafuji K. Design and control of an all-derectin steering type mobile robot[ J]. The International Journal of Robotics Research, 1993,12(5) : 411 -419
  • 3Hayati S, Volpe R, Backes P, et al. The rocky 7 rover:a mars science craft prototype[ A ]. Proceedings of the IEEE International Conference on Robotics and Automation [ C ], NewYork: 1997:124-129
  • 4Yim M, Zhang Y, Duff D. Modular robots[A]. IEEE Spectrum [C], NewYork: 2002:214 -219
  • 5Shen W M, Lu Y, Will P. Hormone-based contavl for self-reconfigurable robots[ A]. Proceedings of International Conference on Autonomous Agents[ C ], Barcelona, Spain, 2000:412-416
  • 6Hirose S. Super-mechano-colony and SMC rover with detachable wheel units[J]. Procedings COE Workshop, 1999,11(3)
  • 7张力平,马书根,李斌,张政,张国伟,曹秉刚.可重构星球探测机器人的运动学建模及轨迹规划[J].西安交通大学学报,2005,39(1):87-91. 被引量:6
  • 8王明辉,马书根,李斌,王越超,贺鑫元.可重构星球探测机器人控制系统的设计与实现[J].机器人,2005,27(3):273-277. 被引量:7

二级参考文献25

  • 1刘进长 王全福.发展机器人技术,占领21世纪的经济技术制高点.中南工业大学学报,31(中国2000年机器人学大会论文专辑)[M].长沙,2000.10-14.
  • 2蔡自兴.机器人学的发展趋势和发展战略.中南工业大学学报[M].长沙,2000,31.1-9.
  • 3[美]卡尔·萨根 陈增林(译).宇宙科学传奇[M].河北:河北人民出版社,1984.195-225.
  • 4Kenurdjian A L. Planet rover as an object of the engineering design work[A]. The 1998 IEEE Conference on Robotics and Automation[C]. Belgium:Leuven,1998. 140-145.
  • 5Koshiyama A, Yamafuji K. Design and control of an all-direction steering type mobile robot[J]. The international Journal of Robotics Research, 1993, 12 (5) :411-419.
  • 6Wagner M. Robotic antarctic meteorite search [EB/OL]. http://www. frc. ri. cmu. edu/projects. 1998-07-06.
  • 7Schilling K, Jungius C. Mobile robots for planetary exploration[M]. Finland: Espoo IFAC Intelligent Autonomous Vehicles, 1995. 109-119.
  • 8Tatokh M, Mcdermott G, Hayati S. Kinematic modeling of a high mobility mars rover[A]. The 1999 IEEE International Conference on Robotics and Automation[C]. Michigan: Detroit, 1999. 992-998.
  • 9Damoto R, Kawakami A, Hirose S. Study of supermechano colony: concept and basic experimental set-up[J]. Advanced Robotics, 2001,15(4): 391-408.
  • 10Hirose S. Super-mechano-colony and SMC rover with detachable wheel units [J ]. Proc COE Workshop,1999, 11(3): 67-72.

共引文献44

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部