TY - JOUR
AU1 - Zhu, Rui
AU2 - Yang, Qingjun
AU3 - Liu, Yudong
AU4 - Dong, Rizhi
AU5 - Jiang, Chunli
AU6 - Song, Jiaxing
AB - This paper focuses on the position control of the quadruped robot hydraulic drive unit (HDU). The proposed control strategy has the advantages of excellent output tracking performance, strong robustness, no chattering and low computational complexity. HDU has the characteristics of nonlinearity and parameter uncertainty, coupled with unpredictable external interference, which makes it difficult to achieve precise position control. In this paper, we first establish the mathematical model of the HDU based on the actual parameters and obtain the state space of the system. Through the pole placement, the simplified system can easily achieve the expected control goal. Then, the state equation of the error system is constructed, and the nonlinearity, parameter uncertainty and external interference of the HDU are summarized as the matched and unmatched uncertainties of the system. The integral sliding mode control (ISMC) is used to derive the control law, and the response characteristics of the system when pole placement and state feedback H∞ control are used for the nominal control are compared. It can be concluded that the system with state feedback H∞ control for nominal control has stronger robustness and can resist the unmatched uncertainties. Finally, the control law of the simplified system is used as feedforward and combined with the ISMC of the error system, the output tracking control framework of the HDU is proposed. Simulations and experiments show that the proposed control method has excellent tracking performance and strong robustness.
TI - Sliding Mode Robust Control of Hydraulic Drive Unit of Hydraulic Quadruped Robot
JF - "International Journal of Control, Automation and Systems"
DO - 10.1007/s12555-021-0235-5
DA - 2022-04-01
UR - https://www.deepdyve.com/lp/springer-journals/sliding-mode-robust-control-of-hydraulic-drive-unit-of-hydraulic-YExzx4i0tE
SP - 1336
EP - 1350
VL - 20
IS - 4
DP - DeepDyve
ER -