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航天器动力学特性参数在轨辨识技术
引用本文:赵寿根,程伟,孙国江,唐颖倩. 航天器动力学特性参数在轨辨识技术[J]. 北京航空航天大学学报, 2005, 31(9): 999-1003
作者姓名:赵寿根  程伟  孙国江  唐颖倩
作者单位:北京航空航天大学,航空科学与工程学院,北京,100083;航天东方红卫星有限公司,北京,100086;航天科工卫星技术有限公司,北京,100088
摘    要:从结构模态参数的可识别性出发,结合结构自由响应识别技术和数字处理技术,开发出大型航天器动力学特征参数在轨辨识系统,包括硬件系统和软件系统,其中软件系统由C+ +和汇编语言组合编写,系统各部分均模块化,可适用于较复杂的工程任务.在此基础上设计了模拟在轨航天器的试验验证系统,检验辨识算法和设计软件的可靠性以及航天器在轨辨识的实时性.该试验系统包括一个对称的双梁结构,利用对称结构的弱耦合可得到多个密集模态,该结构可模拟大型航天器在太空失重条件下所特有的动力学特征.试验表明系统辨识算法可靠,精度达到设计要求.

关 键 词:航天器  动力学  低频密集  参数辨识  实时辨识
文章编号:1001-5965(2005)09-0999-05
收稿时间:2004-05-24
修稿时间:2004-05-24

Identification system to dynamic characteristics of on-orbit space vehicles
Zhao Shougen,Cheng Wei,Sun Guojiang,Tang Yingqian. Identification system to dynamic characteristics of on-orbit space vehicles[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(9): 999-1003
Authors:Zhao Shougen  Cheng Wei  Sun Guojiang  Tang Yingqian
Affiliation:1. School of Aeronautic Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing 100083, China;
2. Hangtian Dongfanghong Satellite Limited, Beijing 100086, China;
3. CASIC Satellite Technology Limited, Beijing 100088, China
Abstract:Based on the structure identifiability, some frequency-domain technologies using the free dynamic response of the structure were discussed. Including the hardware system which consists of the sensors, The data acquisition equipments, the computers and the identification software which was developed using the C language and the assembly language, an identification system which was used to identify dynamic characteristics of an on-orbit space vehicle had been developed, and also a test certification system was designed to verify the reliability of the system and the identification algorithm. The test certification system consisted of a twin-beam which was weakly coupled through a flexible beam between the two beams, and could obtain several concentrated low-frequency modals. The specific dynamic characteristics which the on-orbit space vehicles had under zero-gravity conditions in space could be simulated. The test results show that the system is reliable and the precision of the identification algorithm can meet the design aims.
Keywords:spacecraft    dynamics    low-frequency and modal dense    parameter identification    on-line identification
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