DESIGN OF A PERTURBATION ESTIMATOR USING THE THEORY OF VARIABLE-STRUCTURE SYSTEMS AND ITS APPLICATION TO MAGNETIC-LEVITATION SYSTEMS

被引:41
作者
LU, YS
CHEN, JS
机构
[1] Department of Power Mechanical Engineering, National Tsing Hua University, Hsinchu, Taiwan
关键词
D O I
10.1109/41.382139
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
A perturbation estimator using the theory of variable-structure systems is proposed to enhance the robustness of a pole-placement controller design, In its ideal form, the pole-placement design using feedback-linearization technique achieves a desired performance in nonlinear time-varying systems, However, its performance deteriorates rapidly with the presence of disturbance and parametric uncertainties, referred to as perturbation, The estimate generated by the proposed perturbation estimator is incorporated as an additional input to rectify the uncertainties in the nominal control model of the pole-placement design, The proposed scheme requires neither the measurement of the time derivative of the state vector nor the precise knowledge of system parameters, but rather the bounds on system perturbation, Chatter and the adverse effects of conservative bounds on system perturbation, often encountered in conventional sliding-mode control (SMC), are alleviated for the controlled plant by the proposed scheme. The benefits of this scheme are demonstrated in this study practically on a magnetic levitation system and its performance is compared with that of the conventional SMC scheme.
引用
收藏
页码:281 / 289
页数:9
相关论文
共 16 条
[1]  
Hsia T.C., A new technique for robust control of servo systems, IEEE Trans. Ind. Electron., 36, pp. 1-7, (1989)
[2]  
Youcef-Toumi K., Ito O., A time delay controller for systems with unknown dynamics, ASME J. Dynamic Syst. Meas. Contr., 112, pp. 133-142, (1990)
[3]  
Hsia T.C., Lasky T.A., Guo Z., Robust independent joint controller design for industrial robot manipulators, IEEE Trans. Ind. Electron., 38, pp. 21-25, (1991)
[4]  
Komada S., Ishida M., Ohnishi K., Hori T., Disturbance observer-based motion control of direct drive motors, IEEE Trans. Energy Conversion, 6, pp. 553-559, (1991)
[5]  
Matsui N., Makino T., Satoh H., Autocompensation of torque ripple of direct drive motor by torque observer, IEEE Trans. Ind. Applicat., 29, pp. 187-194, (1993)
[6]  
Suyitno A., Fujikawa J., Kobayashi H., Dote Y., Variable-structure robust controller by fuzzy logic for servomotors, IEEE Trans. Ind. Electron., 40, pp. 80-87, (1993)
[7]  
Utkin V.I., Sliding mode control design principles and applications to electric drives, IEEE Trans. Ind. Electron., 40, pp. 23-36, (1993)
[8]  
Elmali H., Olgac N., Sliding mode control with perturbation estimation (SMCPE): A new approach, Int. J. Contr., 56, pp. 923-941, (1992)
[9]  
Fujimoto Y., Kawamura A., Robust servo-system based on two-degree-of-freedom control with sliding mode, Proc. IEEE IECON'93, pp. 85-90
[10]  
Hung J.Y., Gao W.B., Hung J.C., Variable structure control: A survey, IEEE Trans. Ind. Electron., 40, pp. 2-22, (1993)