Parameter Adaptive Sliding Mode Force Control for Aerospace Electro-Hydraulic Load Simulator

Author:

Huang Jing1ORCID,Song Zhenkun2,Wu Jiale2,Guo Haoyu2,Qiu Cheng1ORCID,Tan Qifan1

Affiliation:

1. School of Mechanical, Electronic and Control Engineering, Beijing Jiaotong University, Beijing 100044, China

2. Beijing Institute of Precision Mechatronics and Controls, Beijing 100076, China

Abstract

The aerospace electro-hydraulic servo simulator is used to simulate the air load received during flight, and is used for the performance test and acceptance test of aerospace servo actuators on the ground. The force loading accuracy of the load simulator is an important assessment index. Because the loading system and the actuator system to be tested are coupled together, the free displacement of the system to be tested during loading will bring huge disturbance to the loading system, thus how to suppress external interference has always been a hot issue in the control field. This paper addresses this issue under the influence of nonlinear friction and uncertain external disturbance. First, the exact mathematical model of the system is derived, and the characteristics of the system are described by the state equations. Second, in order to obtain the relevant parameters in the controller, the system parameters are identified. Third, the parameter adaptive sliding mode force control based on the reaching law is proposed, and the performance of the control algorithm is analyzed theoretically. Finally, the new control method is applied in the aerospace electro-hydraulic servo simulator, and the results show that the new control algorithm can suppress the external interference by 95% or more, and the control accuracy is more than 97%, which fully demonstrates the effectiveness of the control method.

Publisher

MDPI AG

Subject

Aerospace Engineering

Reference35 articles.

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5. Pressure control of electro-hydraulic servo loading system in heavy vehicle steering testboard based on integral sliding mode control;Du;Proc. Inst. Mech. Eng. Part D J. Automob. Eng.,2020

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