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Energy-Efficient Robust Control for Direct Drive and Energy Recuperation Hydraulic Servo System

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  • Weiping Wang
  • Jiyun Zhao

Abstract

During the vertical cyclic actuation process of heavy materials handling, the gravitational potential energy will be converted to heat in the form of throttle in the traditional hydraulic system. Therefore, large energy dissipation is inevitable is this process. In order to achieve energy recuperation, as well as precise trajectory tracking, a direct drive and energy recuperation system is developed. To be specific, the function of direct drive and energy recovery is realized via the three-chamber actuator and a hydraulic accumulator. Moreover, the optimized parameters are obtained by the simulated annealing algorithm. To further reduce the energy consumption, the variable supply pressure control circuit is introduced into the system. Furthermore, the prescribed tracking performance is guaranteed by the proposed robust controller. To compensate for the uncertainties, both in the variable supply pressure control circuit and the robust controller, the RBF neural network is employed to approximate the unknown function. The presented approach theoretically possesses the ability to minimize the energy consumption while maintaining satisfied tracking accuracy. The results demonstrate that the proposed approach can save nearly 90 percent of the energy, and the maximum tracking error is 2 mm.

Suggested Citation

  • Weiping Wang & Jiyun Zhao, 2020. "Energy-Efficient Robust Control for Direct Drive and Energy Recuperation Hydraulic Servo System," Complexity, Hindawi, vol. 2020, pages 1-19, February.
  • Handle: RePEc:hin:complx:6959273
    DOI: 10.1155/2020/6959273
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