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Peng Xiwei, Wang Yu, Wang Xiangzhou. Self Adjusting Feedforward Compensation Tracking Control for Proportional Valve Controlled Motor[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 1999, 8(3): 282-287.
Citation: Peng Xiwei, Wang Yu, Wang Xiangzhou. Self Adjusting Feedforward Compensation Tracking Control for Proportional Valve Controlled Motor[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 1999, 8(3): 282-287.
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Self Adjusting Feedforward Compensation Tracking Control for Proportional Valve Controlled Motor

  • Department of Automatic Control, Beijing Institute of Technology, Beijing 100081

  • Received Date:1998-10-26
    Abstract
  • Aim Aiming at the position tracking control for valve controlled motor electrohydraulic proportional servo systems mainly driving the static load torque, the tracking performance was studied in the presence of the variable gain and deadzone. Methods On the basis of conventional composite control with the deadzone compensation method, a comprehensive control approach with the deadzone and self adjusting feedforward compensation was proposed. Results Experimental results showed that the good tracking performance was achieved for the sinusoidal and constant velocity position tracking under a wide variations of load torque. Conclusion The position tracking accuracy for valve controlled motor electrohydraulic proportional servo systems has been solved by using the comprehensive control approach with the deadzone and self adjusting feedforward compensation.
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    • References (4)
  • [1]
    Leonard N E, Krishnapr asad P S. Adaptive friction compensation for bidirectional low??velocity position tracking. Proc of the 31st IEEE Co nf on Decision and Control, Tucson, Arizona, 1992. 267-273.
    [2] Recker D A, Kokotovic P V, Rhode D. Adaptive nonlinear control of systems containing a dead??zone. Proc of the 30th IEEE Conf on Decision and Control, Brighton, England, 1991. 2111-2115.
    [3] Walrath C D. Adaptive bearing friction compensation based on recent knowledge of dynamic friction. Autamatic, 1984, 20(6):717-727.
    [4] Peng Xiwei, Mo Bo, Cao Fan. Electro hydraulic proportional high accuracy point??to??point control based on variable deadzone dynamic c ompensation. Journal of Beijing Institute of Technology(in Chinese), 1999, 19(1):34-38.
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