基于实时操作系统的光电稳定自适应模糊PI复合控制方法研究

洪华杰, 贠平平, 赵创社

洪华杰, 贠平平, 赵创社. 基于实时操作系统的光电稳定自适应模糊PI复合控制方法研究[J]. 应用光学, 2009, 30(5): 761-767.
引用本文: 洪华杰, 贠平平, 赵创社. 基于实时操作系统的光电稳定自适应模糊PI复合控制方法研究[J]. 应用光学, 2009, 30(5): 761-767.
HONG Hua-jie, YUN Ping-ping, ZHAO Chuang-she. Control method of adaptive fuzzy and PI forphotoelectric stabilization based on real-time OS[J]. Journal of Applied Optics, 2009, 30(5): 761-767.
Citation: HONG Hua-jie, YUN Ping-ping, ZHAO Chuang-she. Control method of adaptive fuzzy and PI forphotoelectric stabilization based on real-time OS[J]. Journal of Applied Optics, 2009, 30(5): 761-767.

基于实时操作系统的光电稳定自适应模糊PI复合控制方法研究

详细信息
    作者简介:

    洪华杰(1976-),男,山东省荣成人,国防科技大学机电工程与自动化学院讲师,博士,西安应用光学研究所博士后,主要从事光电稳定系统、机电一体化技术、磁悬浮控制系统研究工作。

    通讯作者:

    洪华杰(1976-),男,山东省荣成人,国防科技大学机电工程与自动化学院讲师,博士,西安应用光学研究所博士后,主要从事光电稳定系统、机电一体化技术、磁悬浮控制系统研究工作。

  • 中图分类号: TN206

Control method of adaptive fuzzy and PI forphotoelectric stabilization based on real-time OS

  • 摘要: 针对经典稳定控制理论存在超调与快速性之间难以调和的矛盾,建立了稳定控制系统数学模型,采用自适应模糊实现控制的快速性,用PI保证系统的稳态精度,以误差为模糊控制的输入,设计一种实用的自适应模糊和PI复合控制系统,并在基于VxWorks实时操作系统的数字平台上得以实现。仿真和试验表明:设计的新型自适应模糊PI复合控制系统超调量为0,调节时间约8ms,带宽约29Hz。
    Abstract: The stabilization control technology is one of the core technologies of the photoelectric stabilizing and aiming products. It is difficult for classical control theory to deal with the conflict between the overshot and rapidity, and to get satisfied dynamic performance. The system mathematical model was set up, and an adaptive fuzzy and PI compound controller was designed, which was realized on a digital platform based on the VxWorks OS. The simulation and experiment show that the system can realize the goals of zero overshot and rapidity with the designed controller. The system bandwidth was enhanced, which would favor the improvement of stabilization accuracy. The research provided a new stabilization control method for congeneric products.
  • [1]李传胪.新概念武器[M].北京:国防工业出版社, 1997.
    LI Chuan-lu. New concept weapon[M].Beijing:National Defence Industry Press,1997.(in Chinese)
    [2]王连明. 机载光电平台的稳定与跟踪伺服控制[D].长春:中国科学院长春光机所,2002.
    WANG Lian-ming. Study on stabilization and track control techniques of airborne opto-electronic platform[D].Changchun:Changchun Institute of Optics and Precision Mechanics,CAS,2002. (in Chinese)
    [3]RIZZO V J,BIGLEY W J.Microprocessor based co-ntrol system[J]. Proceedings of the IEEE, National Aerospace and Electronics Conference, 1980,5:211-218.
    [4]MASTEN,MICHAEL K.Applications of control theory to design of line-of-sight stabilization systems[J]. American Control Conference,1985(2):1219-1222.
    [5]BIGLEY W J, Fred schupan. wideband base motion isolation control for a mobile platform[J]. American Control Conference,1987(2):1483-1490.
    [6]毕永利.多框架光电平台控制技术研究[D].长春: 中国科学院长春光机所, 2003.
    BI Yong-li. Study on control system of multi-frame photoelectric platform[M]. Changchun:Changchun Institute of Optics and Precision Mechanics,CAS,2003. (in Chinese)
    [7]李东明,党纪红,郝颖.惯性平台稳定回路的双闭环控制[J].应用科技,2003,30(8):48-50.
    LI Dong-ming,DANG Ji-hong,HAO Ying.Double closed loop control in the stabilization loop of inertial platform[J]. Applied Science and Technology, 2003,30(8):48-50.(in Chinese with an English abstract)
    [8]LIN Chun-liang, HSIAO Yi-hsing. Adaptive feed-forward control for disturbance torque rejection in seeker stabilizing loop[J]. IEEE Transactions on Control Systems Technology,2001,9(1) :108-121.
    [9]LI Bo, HULLENDER D A. Self-tuning controller for nonlinear inertial stabilization system[J].SPIE,1996,2739:229-241.
    [10]石红生, 卢广山. 一种新型状态观测器在陀螺稳定平台中的应用[J].电光与控制,1999(1):24-28.
    SHI Hong-shen,LU Guang-shan.Application of a new status observation instrument in gyro stabilization platform[J]. Electronic Optics & Control,1999(1):24-28.(in Chinese with an English abstract)
    [11]王合龙,朱培申,姜世发.陀螺稳定平台框架伺服系统变结构控制器的设计和仿真[J].电光与控制, 1998(2):24-29.
    WANG He-long,ZHU Pei-shen,JIANG Shi-fa.Design and simulation of variable structure for frame servo system on gyro stablilized platform[J]. Electronic Optics & Control,1998(2):24-29.(in Chinese with an English abstract)
    [12]宋金来,杨雨,许可康,等.惯性平台稳定回路的自抗扰控制[J].系统仿真学报, 2002, 14(3):391-393.
    SONG Jin-lai,YANG Yu,XU Ke-kang,et al. Active disturbance rejection control of the stabilizing circuits for inertial platform[J]. Journal of System Simulation,2002,14(3):391-393.(in Chinese with an English abstract)
    [13]魏宗康,徐强,夏刚,等.平台稳定回路H∞鲁棒控制设计[J]. 中国惯性技术学报, 2001,9(3):1-8.
    WEI Zong-kang,XU Qiang,XIA Gang,et al. Design of H∞ robust control for platform′s servo loop[J]. Journal of Chinese Inertial Technology,2001,9(3):1-8.(in Chinese with an English abstract)
    [14]伍小琴, 黄德鸣. 平台稳定回路的变结构控制[J]. 海南大学学报:自然科学版, 2001,19(2):132-135.
    WU Xiao-qin,HUANG De-ming. The sliding variable control in the intertial platform servol loop[J].Natural Science Journal of Hainan University,2001,19(2):132-135.(in Chinese with an English abstract)
    [15]HAESSIG D, Jr. DECOTIIS J. Modern control methods applied to a line-of-sight stabilization and tracking system[J]. American Control Conference,1987(2):1491-1498.
    [16]张智永.光电稳定伺服机构的关键测控问题研究[D].长沙:国防科技大学,2006.
    ZHANG Zhi-yong.Study on the key text-controller question for optical-electro stabilization servo system[D].Changsha:National University of Defense Tehcnology,2006.
    [17]庞新良, 范大鹏, 李忱刚,等.模糊+经典复合控制在光电稳瞄平台中的应用[J].动力学与控制学报, 2008, 6(1):1.
    PANG Xin-liang,FAN Da-peng,LI Chen-gang,et al.Application of Fuzzy+classical complex controller on electro-optical aim platform system[J]. Journal of Dynamics and Control,2008,6(1):88-91.(in Chinese with an English abstract)
    [18]纪明.伺服系统概念与分析[R].西安:西安应用光学研究所, 1996.
    JI Ming. Concept and analysics for the servo system[R].Xi’an:Xi’an Institute of Applied Optics,1996.(in Chinese)
    [19]王磊, 王为民. 模糊控制理论及应用[M]. 北京:国防工业出版社,1997,20.
    WANG Lei,WANG Wei-min. Fuzzy control technology and its application[M].Beijing:Defense Industry Press,1997.(in Chinese)
    [20]王立新. 自适应模糊系统与控制——设计与稳定性分析[M]. 北京:国防工业出版社,1995.
    WANG Li-xin. Adaptive fuzzy system and controlling——Design and stabization analysis[M]. Beijing:Defenses Industry Press,1995.(in Chinese)
    [21]卢广山, 姜长生,耿延洛,等.高精度机载光电跟踪系统的自适应模糊控制[J].西安:兵工学报, 2002,23(4):533-535.
    SHI Guang-sheng,JIANG Chang-sheng,GENG Yan-luo,et al. Adaptive fuzzy control of high accuracy airborne optical-electronic tracking system[J].Acta Armamentarii,2002,23(4):533-535.(in Chinese with an English abstract)
    [22]章卫国, 杨向忠. 模糊控制理论与应用[M].西安:西北工业大学出版社, 1999.
    ZHANG Wei-guo,YANG Xiang-zhong.Fuzzy control technology and its application[M].Xi’an:Northwestern Polytechnical University Press,1999.(in Chinese)
    [23]徐惠民. 基于VxWorks的嵌入式系统及试验[M]. 北京:北京邮电大学出版社,  2006.
    XU Hui-min.Embedded system based on VxWorks and test[M].Beijing:Beijing University of Posts and Telecommunications,2006.(in Chinese)
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出版历程
  • 刊出日期:  2009-09-08

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