摘要
针对实际系统运行过程中所存在的转动惯量和负载力矩变化大等各种不确定因素,提出了一种新型的自适应反步滑模位置控制器(ABSMC)。首先对于模型中的不确定参数,采用自适应鲁棒算法进行有效估计,通过对模型的等价变换和选择适当的Lyapunov函数,最终给出系统的自适应控制器和不确定参数自适应律的设计方法。仿真和实验结果表明,该控制器能够有效抑制抖振,系统跟踪误差小,跟踪性能好,对参数摄动及外界负载扰动具有较强的鲁棒性。
Aiming at wide variations in moment of inertia,large disturbed moment of a rocket launcher position servo system,a adaptive robust controller based on dynamic filtering method(ABSMC)is presented. A estimation algorithm is adopted to tackle model uncertainties,and model uncertainties are compensated by combining a robust adaptive method. Besides,the controller and adaptation laws for uncertain parameters are presented by selecting both the equivalent model transformation and a proper Lyapunov function. The simulation and experimentation results show that the proposed approach can eliminate chattering problem effectively,guarantee the response speed and control accuracy,and possess a strong robustness to both parameter perturbation and load disturbance to the adaptive backstepping sliding mode controller(ABSMC).
出处
《火力与指挥控制》
CSCD
北大核心
2014年第6期86-89,共4页
Fire Control & Command Control
基金
"十二五"国家部委预先研究基金资助项目(B2620110005)
关键词
交流伺服系统
反步控制
PID控制
滑模控制
自适应控制
AC position servo system
backstepping control
PID control
sliding mode control
adaptive control
