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利用Gauss-Markov过程的着陆小天体导航与制导方法
引用本文:黄翔宇,崔平远,崔祜涛,栾恩杰. 利用Gauss-Markov过程的着陆小天体导航与制导方法[J]. 宇航学报, 2004, 25(3): 338-342
作者姓名:黄翔宇  崔平远  崔祜涛  栾恩杰
作者单位:1. 哈尔滨工业大学深空探测基础研究中心,哈尔滨,150001
2. 中国航天局
基金项目:十五国防科技民用航天预研项目
摘    要:给出一种利用Gauss-Markov过程的自主着陆小天体导航与制导算法,来解决无法得到精确的轨道动力学模型带来的轨道确定困难问题。主要是在导航算法中,采用一阶高斯-马尔科夫过程近似着陆探测器轨道动力学中的无模型加速度,利用扩展卡尔曼滤波估计探测器的位置、速度及无模型加速度。通过数学仿真分析了给出的自主导航与制导系统的性能,并对比了采用与不采用一阶高斯-马尔科夫过程的导航滤波器性能,结果表明前者明显优于后者。

关 键 词:自主导航 着陆小天体 高斯-马尔科夫过程 扩展卡尔曼滤波
文章编号:1000-1328(2004)03-0338-05

A navigation and guidance algorithm for small celest body landing using the gauss-markov process
HUANG Xiang-yu,CUI Ping-yuan,CUI Hu-tao,LUAN En-jie. A navigation and guidance algorithm for small celest body landing using the gauss-markov process[J]. Journal of Astronautics, 2004, 25(3): 338-342
Authors:HUANG Xiang-yu  CUI Ping-yuan  CUI Hu-tao  LUAN En-jie
Affiliation:HUANG Xiang-yu~1,CUI Ping-yuan~1,CUI Hu-tao~1,LUAN En-jie~2
Abstract:The navigation and guidance algorithm using the Gauss-Markov process for autonomous small celestial body landing is presented to solve the orbit determination difficult problem induced by not obtaining the accurate orbit dynamic model.In the navigation algorithm,the un-modeled accelerations acting on the landing probe are approximated by a first-order Gauss-Markov process.The position and velocity of probe,and the un-modeled accelerations are estimated by using the extended Kalman filter.Performance of the autonomous navigation and guidance system is verified by using the numerical simulation.The performance of the navigation filter using the first-order Gauss-Markov process is compared with that not using the process.And the simulation results show that the former is obviously superior to the latter.
Keywords:Autonomous navigation  Small celestial body landing  Gauss-Markov process  Extended Kalman filter
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