Title :
Research on attitude control and momentum management of space station based on extended state observer
Author :
Liu Ping ; Sun Zhendong
Author_Institution :
Autom. Dept., South China of Technol., Guangzhou, China
Abstract :
The space station employ control moment gyro (CMG) as a primary actuator. But it will cause the accumulation of angle momentum and result in the saturation, because of the environmental disturbance torques. The attitude control and momentum management (ACMM) of the space station is to avoid the rapid saturation of CMG and satisfy the accuracy of attitude control. A LQR controller is designed based on the linearized model of the ACMM; extended state observer (ESO) is utilized to estimate the disturbance of the space station for the first time. An effective disturbance compensation strategy for the space station is presented to satisfy the ACMM and accuracy of attitude control. Finally, the simulation proves the feasibility of the method.
Keywords :
attitude control; compensation; control system synthesis; gyroscopes; linear quadratic control; observers; space vehicles; stability; torque control; ACMM linearized model; CMG; ESO; LQR controller design; angle momentum accumulation; attitude control; control moment gyro; disturbance compensation strategy; disturbance estimation; environmental disturbance torque; extended state observer; momentum management; primary actuator; rapid saturation avoidance; space station; Accuracy; Attitude control; Automation; Electronic mail; Observers; Space stations; Sun; Attitude Control; CMG; ESO; LQR; momentum management;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
