Title :
Ultra-low speed control strategy for SGCMG gimbal servo system
Author :
Ming Lu ; Shuyan Wang ; Wei Zheng ; Jia Liang ; Yi Zhou ; Ni Xia
Author_Institution :
Beijing Inst. of Control Eng., Beijing, China
fDate :
May 31 2014-June 2 2014
Abstract :
Ultra-low speed control strategy is a difficult problem in the single gimbal control moment gyro (SGCMG) gimbal servo system. Speed detection resolution and disturbance torque attenuation are two major factors that restrict further improvements on the ultra-low speed control performance. In this paper, a novel ultra-low speed control strategy is proposed, including a multi-cycle backward difference combined with KALMAN estimation speed detection method to increase the ultra-low speed detection resolution, and a variable structure controller (VSC) combined with repetitive controller (RC) to improve the disturbance torque attenuation capability. Simulation results show that the ultra-low speed control strategy is feasible and efficient. Comparing to the conventional controller, the speed control precision increases almost by one order of magnitude.
Keywords :
servomechanisms; torque; variable structure systems; velocity control; Kalman estimation speed detection method; SGCMG gimbal servo system; VSC; conventional controller; disturbance torque attenuation capability; multicycle backward difference; repetitive controller; single gimbal control moment gyro gimbal servo system; speed control precision; ultra-low speed control performance; ultra-low speed control strategy; ultra-low speed detection resolution; variable structure controller; Frequency control; Friction; Rotors; Servomotors; Torque; Velocity control; SGCMG; disturbance torque; gimbal servo system; repetitive controller; speed resolution; ultra-low speed; variable structure controller;
Conference_Titel :
Control and Decision Conference (2014 CCDC), The 26th Chinese
Conference_Location :
Changsha
Print_ISBN :
978-1-4799-3707-3
DOI :
10.1109/CCDC.2014.6852118
