摘要
To achieve excellent tracking accuracy,a coarse-fine dual-stage control system is chosen for inertially stabilized platform.The coarse stage is a conventional inertially stabilized platform,and the fine stage is a secondary servo mechanism to control lens motion in the imaging optical path.Firstly,the dual-stage dynamics is mathematically modeled as a coupling multi-input multi-output(MIMO)control system.Then,by incorporating compensation of adaptive model to deal with parameter variations and nonlinearity,a systematic robust H∞control scheme is designed,which can achieve good tracking performance,as well as improve system robustness against model uncertainties.Lyapunov stability analysis confirmed the stability of the overall control system.Finally,simulation and experiment results are provided to demonstrate the feasibility and effectiveness of the proposed control design method.
为了实现更加优越的跟踪精度,光电惯性稳定平台采取粗、精双级控制系统形式。其中,粗级控制系统为常规的陀螺稳定平台,而精级控制系统由二级微动伺服控制系统组成,用来控制成像光路中透镜的精密运动。首先,本文对双级控制系统动力学模型进行建模,将其表示为多输入、多输出(MIMO)的耦合控制系统。然后,针对双级控制系统动力学模型的特点,推导了基于自适应模型前馈补偿的综合鲁棒H_∞控制策略,保证了双级控制系统的整体稳定性,实现良好的跟踪性能和鲁棒性;然后,通过Lyapunov方法证明了双级控制系统的稳定性。最后,仿真和实验结果证明了所提控制器的有效性和可行性。
作者
SONG Jiang-peng
ZHOU Di
SUN Guang-li
QI Zhi-hui
宋江鹏;周荻;孙广利;祁智辉(Department of Control Science and Engineering,Harbin Institute of Technology,Harbin 150001,China;Tianjin Jinhang Institute of Technical Physics,Tianjin 300192,China)
基金
Project (61174203) supported by the National Natural Science Foundation of China
