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基于干扰观测器的机器人关节控制 被引量:1

Humanoid Robot Joint Control Based on Disturbance Observer
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摘要 提出了基于干扰观测器的仿人机器人关节控制方法。在建立仿人机器人单关节物理模型的基础上,设计了相应的干扰观测器和控制器,解决了关节控制中时变非线性的重力力矩对控制性能的影响。与PID控制器进行性能比较,并探讨了关节模型摄动对干扰观测器的影响,仿真结果表明该方法在仿人机器人关节控制中的可行性和有效性。 A joint control method is proposed for humanoid robot based on disturbance observer. The full dynamic model of robot is firstly analyzed witheach ,joint actuated by motors, and a simple single joint dynamic model is therefore decoupled. The disturbance observer and controller are designed tocompensate for the effects produced by time-variant gravity torque. In simulation, the performance of proposed method is compared with that of PDcontroller and the effects of model perturbation on the application of disturbance observer are further discussed. The results show the effectiveness andfeasibility of the proposed method.
作者 刘艳涛
机构地区 上海交通大学自动化系学院控制与信息处理实验室
出处 《微型电脑应用》 2011年第7期62-64,71,共4页 Microcomputer Applications
关键词 仿人机器人 关节控制 干扰观测器 模型摄动 Humanoid Robot Joint Control Disturbance Observer Model Perturbation
分类号 TP39 [自动化与计算机技术—计算机应用技术]
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参考文献5

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同被引文献15

  • 1乔继红.参数不确定机械臂的自适应反演跟踪控制[J].北京工商大学学报(自然科学版),2007,25(2):40-42. 被引量:2
  • 2NAGATA F, HASE T, HAGA Z, et al. CAD/CAM-based po- sition/foree controller for a mold polishing robot [J]. Meeha- tronies, 2007,17 : 207-216.
  • 3HOROWITZ I. Survey of quantitative feedback theory [J]. In- ternational Journal of Control, 1991,53(2) : 255-291.
  • 4PATIL M D, NATARAJ S V. Automated synthesis of multi- variable QFT controller using interval constraint satisfaction technique [J]. Journal of Process Control, 2012,22: 751-765.
  • 5TAHER S A, HEMMATI R, ABDOLALIPOUR A, et al. Comparison of different robust control methods in design of decentralized UPFC controllers [J]. Electrical Power and En- ergy Systems, 2012,43:173-184.
  • 6KHODABAKHSHIAN A, HEMMATI A. Robust decentral- ized multi-machine power system stabilizer design using quantitative feedback theory [J]. Electrical Power and Energy Systems, 2012,41: 112-119.
  • 7AHN K K,CHAU N H T. Design of a robust force controller for the new mini motion package using quantitative feedback theory [J]. Meebatronics, 2007,17: 542-550.
  • 8N1KSEFAT N,SEPEHRI N. Design and experimental evalu- ation of a robust force controller for an electro-hydraulic actu- ator via quantitative feedback theory [J].Control Engineering Practice, 2000,8:1335-1345.
  • 9AHN K K, DINH Q T. Self-tuning of quantitative feedback theory for rome control of an electro-hydraulic test machine [J]. Control Engineering Practice, 2009,17 : 1291-1306.
  • 10KARPENKO M, SEPEHRI N. Electrohydraulie force control design of a hardware-in-the-loop load emulator using a nonlin- ear QFT technique [J]. Control Engineering Practice, 2012, 20: 598-609.

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微型电脑应用
2011年 第7期

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