光电跟踪系统中精密控制技术研究进展  被引量：25

作　　者：唐涛[1,2,3] 马佳光 陈洪斌[1,2] 付承毓[1,2] 杨虎[1,2] 任戈[1,2] 杨文淑[1,2] 亓波[1,2,3] 曹雷[1,2] 张孟伟 包启亮[1,2] 谭毅[1,2] 黄永梅[1,2,3] 毛耀[1,2] 王强[1,2] Tang Tao;Ma Jiaguang;Chen Hongbin;Fu Chengyu;Yang Hu;Ren Ge;Yang Wenshu;Qi Bo;Cao Lei;Zhang Mengwei;Bao Qiliang;Tan Yi;Huang Yongmei;Mao Yao;Wang Qiang(Key Laboratory of Beam Control,Chinese Academy of Sciences,Chengdu,Sichuan 610209,China;Institute of Optics and Electronics,Chinese Academy of Sciences,Chengdu,Sichuan 610209,China;University of Chinese Academy of Sciences,Beijing 100049,China)

机构地区：[1]中国科学院光束控制重点实验室,四川成都610209 [2]中国科学院光电技术研究所,四川成都610209 [3]中国科学院大学,北京100049

出　　处：《光电工程》2020年第10期1-29,共29页Opto-Electronic Engineering

基　　金：中国科学院青年促进会优秀会员项目。

摘　　要：精密控制技术离不开光机电结构配置、电机驱动、传感器、控制算法以及载荷平台的发展,它是实现高精度光电跟踪的必要手段。无论固定地基平台还是运动平台,扰动抑制、目标跟踪以及分布式智能协同的三大关键技术始终是光电跟踪控制系统面临的技术难点。本文综述了针对上述几大关键问题的精密控制技术,展示了一些先进和前沿控制技术的研究成果,同时指出未来重点研究方向的主要思路。根据扰动影响的不同机理,从精密驱动、惯性稳定、振动控制三个方面介绍了相应扰动抑制技术的研究进展以及热点,并强调基于Stewart平台的振动与指向一体化技术是空间光电跟踪系统的重要技术方向。复合轴控制系统仍然是提高目标跟踪最有效的根本方式,最基本的技术问题是提高精跟踪倾斜镜跟踪系统的性能。观测器控制尤其是仅有误差测量的观测器技术特别适用于复合轴光电跟踪系统,发展三级或者更高级的复合轴系统应该特别注意高性能电机的应用。最后,提出多智能协同光电系统是光电跟踪领域未来重点的发展方向,需要研究多智能体的协同定位、编队控制以及载荷平台一体化等精密控制技术。Precision control methodologies are necessary to implement high-precision optical-electric tracking performance,and depend on structural configuration,actuator drive,sensors,control algorithm and load platform.However,the optical-electric tracking system is facing with the three key technologies,disturbance rejection,target tracking and distributed intelligent coordination,both foundation platform and moving platform.In this paper,precision control methodologies aiming at the above several key technical problems are summarized,and the research results of some advanced and frontier control technologies are presented,and the main ideas of the future key research directions are pointed out.In addition,the research progress and hotspot of disturbance rejection technology from three aspects of precision drive,inertial stability as well as vibration control according to the different mechanism of disturbance influence are introduced,and the integrated technology of vibration and direction based on Stewart platform is an important technical direction of space optical-electric tracking system are emphasized.The composite axis control system is still the most effective fundamental way to improve the target tracking,and the most essential technical problem is to improve the closed-loop performance of the tip-tilt mirror system in precision tracking.It has to be mentioned that observer control is especially suitable for composite axis optical-electric tracking system,especially the observer technology based solely on error,and the development of three or more advanced composite shaft systems has to pay special attention to the application of high performance motors.Eventually,it is proposed that multi-intelligence cooperative optoelectronic system is the key development direction in the field of optical-electric tracking in the future,and it is necessary for the system to develop multi-agent cooperative positioning,formation control and load platform integration and other precise control technologies.

关 键 词：光电跟踪 精密控制 扰动抑制 目标跟踪 智能协同 分布式 

分 类 号：TP273[自动化与计算机技术—检测技术与自动化装置] TN29[自动化与计算机技术—控制科学与工程]