| The Journal of Engineering | |
| Combined motion control of hydraulic boom based on dynamic surface adaptive fuzzy sliding mode | |
| Yue Jiang1 Zhenxin He2 Rongan Pan2 Jie Wang2 Wenzheng Du2 | |
| [1] Southwest University;Xi'an High-tech Institute; | |
| 关键词: Lyapunov methods; hydraulic systems; fuzzy control; adaptive control; control system synthesis; motion control; variable structure systems; combined motion control; lifting mechanism; transfer vehicle; common electromechanical–hydraulic system; hydraulic boom combined motion process; dynamic surface adaptive fuzzy sliding mode control method; virtual control; dynamic surface control; adaptive control; fuzzy control; sliding surface; high control accuracy; parameter estimation; system chatter; Lyapunov function; | |
| DOI : 10.1049/joe.2018.8989 | |
| 来源: DOAJ | |
【 摘 要 】
The lifting mechanism on the transfer vehicle is a common electromechanical–hydraulic system. In order to overcome the non-linear and interference that exist in the hydraulic boom combined motion process, a dynamic surface adaptive fuzzy sliding mode control method is proposed. The Lyapunov function and virtual control base on inversion of the sliding mode control are designed, the dynamic surface control is used to calculate the derivative of the virtual control, and the adaptive control is applied to estimate the parameter. Furthermore, the fuzzy control is applied to fuzzification the switching item of the sliding surface. Verified by simulation, the designed sliding mode controller has high control accuracy and strong robustness and eliminates system chatter.
【 授权许可】
Unknown
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