Adaptive Robust Dynamic Surface Control of Electro-hydraulic System with Unknown Nonlinear Disturbance

Guo, Qinyang; Shi, Guanglin; He, Changyu; Wang, Dongmei; Hu, Jie

doi:10.11159/cdsr17.104

Cited by 2 publications

(1 citation statement)

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“…Besides, the combination of backstepping and SMC is another strategy to enhance the performance by taking advantage of both controllers (Thi et al, 2019;Wang et al, 2020). In order to solve the phenomenon of ''explosion of terms,'' the dynamic surface control (DSC) technique has been proposed (Qinyang et al, 2017;Tien et al, 2019), in which multiple sliding surfaces combined with the backstepping technique and a low-pass filter for each computation step are leveraged. In addition, there are some other effective methods, such as fuzzy techniques, which are capable of estimating virtual signals and minimizing chattering (Zhang et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Adaptive fuzzy Lyapunov-based model predictive control for parallel platform driving simulators

Mạnh

Nguyen

Duy

et al. 2022

Transactions of the Institute of Measurement and Control

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The paper proposes an adaptive Lyapunov-based nonlinear model predictive control (MPC) to cope with the problems in nonlinear systems subjecting to system constraints and unknown disturbances of the parallel car driving simulator. Commonly, standard nonlinear controllers could guarantee the overall system stability for the parallel structure. However, the constraints tend to impact the control performance and stability adversely. Therefore, MPC plays a vital role in the proposed technique to explicitly consider all the practical constraints and simultaneously enhance the system’s robustness. Nevertheless, the accuracy of the modeling process has a significant effect on the MPC performance, and thus, the convergence cannot be guaranteed in the presence of the model uncertainties. To overcome this problem, by the merit of the fuzzy adaptive law, the control system takes the disturbances and unmodelled parameters into account. Moreover, the feasibility and stability of the approach, which is the fundamental problem of MPC, are ensured according to the Lyapunov-based nonlinear controller, backstepping aggregated with sliding mode control (SMC), and hence inherit advantages of these controls. Simulation results show the efficiency and superior constituted controllers of the proposed method.

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