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Learning-based force servoing control of a robot with vision in an unknown environment 被引量:2

Learning-based force servoing control of a robot with vision in an unknown environment
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摘要 A learning-based control approach is presented for force servoing of a robot with vision in an unknown environment. Firstly, mapping relationships between image features of the servoing object and the joint angles of the robot are derived and learned by a neural network. Secondly, a learning controller based on the neural network is designed for the robot to trace the object. Thirdly, a discrete time impedance control law is obtained for the force servoing of the robot, the on-line learning algorithms for three neural networks are developed to adjust the impedance parameters of the robot in the unknown environment. Lastly, wiping experiments are carried out by using a 6 DOF industrial robot with a CCD camera and a force/torque sensor in its end effector, and the experimental results confirm the effecti veness of the approach. A learning-based control approach is presented for force servoing of a robot with vision in an unknown environment. Firstly, mapping relationships between image features of the servoing object and the joint angles of the robot are derived and learned by a neural network. Secondly, a learning controller based on the neural network is designed for the robot to trace the object. Thirdly, a discrete time impedance control law is obtained for the force servoing of the robot, the on-line learning algorithms for three neural networks are developed to adjust the impedance parameters of the robot in the unknown environment. Lastly, wiping experiments are carried out by using a 6 DOF industrial robot with a CCD camera and a force/torque sensor in its end effector, and the experimental results confirm the effecti veness of the approach.
作者 XiaoNanfeng
机构地区 SchoolofComputerScienceandEngineering
出处 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2004年第2期171-178,共8页 系统工程与电子技术(英文版)
基金 This project was supported by the research foundation of China Education Ministry for the scholars from abroad (2002247).
关键词 ROBOTICS force servoing vision control learning algorithm neural network. robotics, force servoing, vision control, learning algorithm, neural network.
分类号 TP242.62 [自动化与计算机技术—检测技术与自动化装置]
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参考文献9

  • 1[1]Tsuji H, Harada Akamatsu, Kaneko K M, et al. On-Line Learning of Robot Arm Impedance Using Neural Networks (in Japanese). Journal of Rob. Soc. Jpn., 17 (2): 234~241.
  • 2[2]Tachibana L S, Todo I. Position and Force Control of a Translation/Rotation-Decoupled Direct-Drive Robot Using Visual Feedback (in Japanese). Trans. Jpn. Soc. Mech.Eng., 1999, 65 (6): 4750~4758.
  • 3[3]Hosoda K, Igarashi K, Asada M. Adaptive Hybrid Visual/Force Servoing Control in Unknown Environment (in Japanese). Journal of Rob. Soc. Jpn., 1997, 15(4): 642~ 647.
  • 4[4]Hosoda K, Asada M. Adaptive Visual Servoing Controller with Feed-forward Compensator without Knowledge of True Jacobian (in Japanese), Journal of Rob. Soc. Jpn.,1996, 14 (2): 313~319.
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同被引文献18

  • 1陈立国,孙立宁,边信黔,荣伟彬.基于显微视觉的MEMS微装配系统研究[J].机械与电子,2005,23(5):31-33. 被引量:6
  • 2王磊,柳洪义,王菲.在未知环境下基于模糊预测的力/位混合控制方法[J].东北大学学报(自然科学版),2005,26(12):1181-1184. 被引量:10
  • 3魏立新,李二超,王洪瑞.基于混合优化神经网络的机器人力/位置控制[J].电机与控制学报,2006,10(2):151-153. 被引量:11
  • 4李二超,李炜.在未知环境下面向位控机器人的力/位混合控制[J].煤炭学报,2007,32(6):657-660. 被引量:22
  • 5Hosoda K Igarashi,K Asada M. Adaptive hybrid control for visual and force servoing in an unknown environment[ J]. Robotics & Automation Magazine, 1995,5 (4) :39 -43.
  • 6Reza Saeidpourazar, Nader Jalili. Towards fused vision and force robust feedback control of nanorobotic-based manipulation and grasping [ J ]. Mechatronics, 2008,14 (5) :1 - 12.
  • 7Joo E M, Yang G. Robust adaptive control of robot manipulators using generalized fuzzy neural networks[J]. IEEE Transactions on Industrial Electronics, 2003, 50(6): 620-628.
  • 8Huang L, Ge S S, Lee T H. Fuzzy unidirectional force control of constrained robotic manipulators[J]. Fuzzy Sets and Systems, 2003, 134(1): 135-146.
  • 9Lopes A, Almeida F. A force-impedance controlled industrial robot using an active robotic auxiliary device[J]. Robotics and Computer: Integrated Manufacturing, 2008, 24(3): 299-309.
  • 10Meeussen W, Staffetti E, Bruyninckx H. Integration of planning and execution in force controlled compliant motion[J]. Robotics and Autonomous Systems, 2008, 56(5): 437-450.

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Journal of Systems Engineering and Electronics
2004年 第2期

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