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Robust Control of the Nonlinear Hydraulic Servo System Using a PID Control Technique
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 Title & Authors
Robust Control of the Nonlinear Hydraulic Servo System Using a PID Control Technique
Yu, Sam-Hyeon; Lee, Jong-Won;
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 Abstract
Even though the hydraulic servo system has been widely used in industrial and military equipments since it has a lot of advantages, it is not easy to design controller due to the high nonlinearities and the parametric uncertainties. The dynamic behavior of the real process in the hydraulic servo system differs from that described by its model because the model is linearized. Another reason of the difference is caused by the variety of parameters, since the system parameters of the dynamic equation are affected by the operating conditions such as temperature and pressure. In this study, the designing process of the MRNC with a PID compensator is introduced and applied to the load sensing hydraulic servo system. The results show that the designed controller guarantees the robust control performance despite of both the nonlinearities and the parametric uncertainties.
 Keywords
Model Reference Nonlinear Controller;MRNC;Relative Degree;Error Dynamics;Parametric Uncertainty;Lie Derivative;Bulk Modulus;Load Sensing Hydraulic System;
 Language
Korean
 Cited by
1.
Robust Control of Hydraulically Operated Gimbal System,;;

Journal of Mechanical Science and Technology, 2007. vol.21. 5, pp.755-763
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