舰载光电伺服设备的系统辨识研究

周俊鹏; 李焱; 王一卉; 陈娟

doi:doi:10.3788/yjyxs20142905.0721

液晶与显示, 2014, 29 (5): 721, 网络出版: 2014-08-18

舰载光电伺服设备的系统辨识研究

Shipboard photoelectric equipment servo system identification

论文大纲

周俊鹏 ^*李焱王一卉陈娟

作者单位

长春工业大学电气与电子工程学院，吉林长春 130012

系统辨识近似逼近e指数 Origin拟合阶跃法可信度 system identify approximate approach e exponential Origin fitting step method credibility

摘要

系统辩识即获取电机机械时间常数Tm和对应的固有放大倍数K。舰载光电系统由于受到横摇、纵摇、艏摇的扰动，其系统辩识的可信度及精度直接影响到调节器参数的设定，从而对稳态和动态精度会有很大的影响。常规公式法求电机机械时间常数在实际应用中非常不便，并且大多数场合不能求得Tm。本文以PC104硬件平台为依托，推导出的近似逼近e指数函数作为阶跃法获取系统辨识的理论依据，并设计了友好的人机交互界面可以方便的显示、修改系统辩识的结果。试验分析表明，应用Origin拟合e指数函数使阶跃法得到的Tm和K拟合可信度达到96%以上，其拟合误差小于01,精度完全满足使用要求。解决了实际工程中获取Tm和K精度低、可信度不高的难题。此方法成功地应用在项目中，并对求得电机机械时间常数有很好的通用性和借鉴性。

Abstract

Obtaining the motor mechanical time constant Tm and inherent magnification K is knowed as system identify. Ship-borne photoelectric system was disturbed due to the roll, pitch, bow wave disturbance,and the reliability and accuracy of the system discerniblile directly affect the regulator parameter setting.Thereby, the steady state and dynamic accuracy will confront serious influence. Conventional formula method for motor mechanical time constant in the practical application is very inconvenient, and most of the occasions for Tm can’t be gotten. Based on PC104 hardware platform, this paper deduced the approximate approach e exponential function as step method for system identification that is the theoretical basis, designed a friendly human-computer interaction interface to display and modify the result of the system on discerniblile easily. By test analysis: applying Origin fitting e exponential function can make the step method of Tm and K fitting credibility more than 96%, the fitting error is less than 01, accuracy can meet the needs completely. The problem of low accuracy and credibility has been solved for getting Tm and K in the practical engineering.This method is successfully used in some projects, and the results show that the method is feasible and practical.

参考文献

[1] 苗本健.伺服电动机动态参数辨识问题[J].伺服控制，2013(1):39-41.

Miao B J. Servo motor dynamic parameter identification problem [J].Servo Control,2013(1):39-41.(in Chinese)

[2] 蔡莎莎,毛晓明,陈志勇，等.同步电机调速系统参数辩识研究进展与展望[J].广东电力，2012，25(10)：29-32.

Cai S S,Mao X M,Chen Z Y,et al.Research progress and prospect of reference identification of synchronous motor speed control system [J].Guangdong Power, 2012，25(10)：29-32.(in Chinese)

[3] 张文海.伺服电动机的时间常数问题[J].微特电机，2012,40(8):75-76.

Zhang W H. Time constant problem of servo motor [J].Emotorcn, 2012,40(8):75-76.(in Chinese)

[4] 冯清青.永磁直流电机测试系统研究[D].哈尔滨：哈尔滨工程大学,2012.

Feng Q Q.Research on permanent magnetic DC motor testing system [D].Harbin:Harbin Engineering University, 2012.(in Chinese)

[5] Liu Q.The model and identification of DC servo system [J].Electric Dr电气传动自动化,2012,34(6):18-21ive Automation,2012,34(6):18-21.(in Chinese)

刘琼.直流伺服系统模型及其辩识[J].电气传动自动化,2012,34(6):18-21.

[6] 张升.永磁无刷直流电机速度控制与模型参数辩识研究[D].北京：北方工业大学，2013.

Zhang S. Speed control and model parameters identification study of permanent magnet brushless DC motor [D].Beijing: North China University of Technology,2013.(in Chinese)

[7] 王建峰,张天宏.基于MATLAB/XPC的直流电机参数辩识及双闭环控制研究[J].测控技术，2011,30(12)：32-36.

Wang J F,Zhang T H. Study on parameter identification of DC motor and double closed loop control based on MATLAB/XPC [J].Measurement & Control Technology，2011,30(12):32-36.(in Chinese)

[8] 魏彤,郭蕊.自适应卡尔曼滤波在无刷直流电机系统辩识中的应用[J].光学精密工程,2012,20(10):2308-2314.

Wei T,Guo R. Application of adaptive Calman filter in Brushless DC motor system identify-cation [J].Optics and Precision Engineering,2012,20(10):2308-2314.(in Chinese)

[9] 喻冬梅,幸明强,汪建兵.无刷直流电动机Tm和Tl测量方法[J].舰船科学技术,2011,33(10):86-88.

Yu T M,Xing M Q,Wang J B. Brushless DC motor Tm and Tl measurement method [J].Ship Science and Technology,2011,33(10):86-88.(in Chinese)

[10] 潘先喜.永磁同步电机的伺服控制系统研究与实现[D].武汉:武汉理工大学,2011.

Pan X X.Research and implementation of control system of permanentmagnet synchronous motor servo [D].Wuhan: Wuhan University of Technology,2011.(in Chinese)

[11] 李焱,曹立华,王弟男.惯导平台下舰载光电搜索跟踪系统的控制[J].光学精密工程,2011,19(5):1126-1123.

Li Y, Cao L H,Wang D N.Controlling of shipborne optoelectronic searching and tracking system based on inertial navigation platform [J].Optics and Precision Engineering,2011,19(5):1126-1133.(in Chinese)

[12] 李焱,陈涛, 曹立华.舰载光电设备跟踪掠海目标的控制[J].光学精密工程,2010,18(5):936-941.

Li Y, Chen T, Cao L H.Control of ship-based optoelectronic equipment for tracking near-sea targets [J].Optics and Precision Engineering,2010,18(5):936-941.(in Chinese)

[13] 赵磊,王学亮,巩岩.基于FPGA的液晶显示屏测试用标准白场装置[J].液晶与显示,2014,29(1):94-100.

Zhao L,Wang X L,Gong Y.FPGA based white field apparatus for LCD calibration [J].Chinese Journal of Liquid Crystals and Displays,2014,29(1):94-100.(in Chinese)

[14] 赵梓权,王瑞光,郑喜凤，等.LED显示屏的色域校正[J].液晶与显示,2013,28(1):92-98.

Zhao Z Q,Wang R G,Zheng X F,et al.Color Gamut correction of LED Displays [J].Chinese Journal of Liquid Crystals and Displays,2013,28(1):92-98.(in Chinese)

周俊鹏, 李焱, 王一卉, 陈娟. 舰载光电伺服设备的系统辨识研究[J]. 液晶与显示, 2014, 29(5): 721. ZHOU Junpeng, LI Yan, WANG Yihui, CHEN Jun. Shipboard photoelectric equipment servo system identification[J]. Chinese Journal of Liquid Crystals and Displays, 2014, 29(5): 721.

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