吉林大学学报(工学版) ›› 2011, Vol. 41 ›› Issue (4): 1096-1101.

• paper • Previous Articles     Next Articles

3CH time-delayed bilateral teleoperation using wave variable with prediction

YU Zhen-zhong1,2, YAN Ji-hong1, ZHAO Jie1, GAO Yong-sheng1, CHEN Zhi-feng1   

  1. 1.State Key Laboratory of Robotics and System|Harbin Institute of Technology|Harbin 150080|China|2.Key Laboratory of Advanced Process Control for Light Industrial,Ministry of Education,Jianghan University, Wuxi 214122,China
  • Received:2009-08-30 Online:2011-07-01 Published:2011-07-01

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Abstract:

To overcome the poor transparency of using wave variable algorithm in time-delay teleoperation system, a novel method was proposed for incorporating wave variable algorithm with prediction in a three-channel (3CH) architecture of teleoperation system. This method is capable to guarantee the stability of time-delay teleoperation meanwhile increase the transparency. A 3CH teleoperation control architecture was established for the system in the absence of force sensor in the master side, and a parameter selection method for 3CH architecture under the condition of ideal transparency was presented. To extend wave variable algorithm to a 3CH teleoperation architecture, the communication channel was divided into a two-port model by reasonable combination of force and speed information. Then the I/O signal of the two-port model was transformed into wave variable. A predictor was added in wave domain of the master side to further enhance the transparency of the system, and an energy regulator was designed to ensure the predictor being passive. The transparency and stability of the system were analyzed. Experiment results show that the proposed method can guarantee the transparency and stability of time-delay teleoperation system.

Key words: automatic control technology, system engineering, 3CH teleoperation, wave variable with prediction, bilateral teleoperation, transparency, energy regulator

CLC Number: 

  • TP242
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