用四元数状态切换无迹卡尔曼滤波器估计的飞行器姿态

乔相伟; 周卫东; 吉宇人

引用本文:	乔相伟,周卫东,吉宇人.用四元数状态切换无迹卡尔曼滤波器估计的飞行器姿态[J].控制理论与应用,2012,29(1):97~103.[点击复制]
	QIAO Xiang-wei,ZHOU Wei-dong,JI Yu-ren.Aircraft attitude estimation based on quaternion state-switching unscented Kalman filter[J].Control Theory and Technology,2012,29(1):97~103.[点击复制]

用四元数状态切换无迹卡尔曼滤波器估计的飞行器姿态

Aircraft attitude estimation based on quaternion state-switching unscented Kalman filter

摘要点击 4197 全文点击 3793 投稿时间：2010-05-07 修订日期：2011-05-12

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DOI编号 10.7641/j.issn.1000-8152.2012.1.CCTA100514

2012,29(1):97-103

中文关键词姿态估计状态切换无迹卡尔曼滤波四元数均值四元数乘性误差四元数

英文关键词 attitude estimation state-switching unscented Kalman filter quaternion average quaternion multiplicative quaternion error

基金项目国家自然科学基金资助项目(60834005).

作者	单位	E-mail
乔相伟^*	哈尔滨工程大学自动化学院	qiaoxiangwei@126.com
周卫东	哈尔滨工程大学自动化学院
吉宇人	哈尔滨工程大学自动化学院

中文摘要

在较大初始姿态误差角下, 针对捷联惯导/CCD星敏感器(strap-intertial navigation system/CCD star sensor, SINS/CCD)姿态估计系统扩展卡尔曼滤波(extended Kalman filter, EKF)算法精度下降的问题, 提出了基于四元数的状态切换无迹卡尔曼滤波算法. 通过状态实时切换降低了全维无迹卡尔曼滤波(unscented Kalman filter, UKF)的维数, 减小了计算复杂度, 提高了系统的实时性. 文中采用基于特征向量求解的代价函数法计算四元数均值避免了UKF算法中四元数规范化的限制; 利用乘性误差四元数表示姿态更新点与估计点之间的距离, 解决了四元数协方差阵奇异性问题. 仿真实验结果表明: 与EKF相比, 该算法在精度上有较大提高; 与全维UKF算法和修正罗德里格斯参数UKF算法相比, 该算法精度相当但估计时间均有不同程度的减少.

英文摘要

To deal with the divergence phenomenon of extended Kalman filter (EKF) in SINS/CCD attitude estimation, we put forward a state-switching unscented Kalman filter (UKF) based on quaternion (Q-SUKF). By switching the states in real-time, the dimensions of the full-dimension UKF algorithm are effectively reduced, the computation complexity is decreased and the timeliness is improved. To avoid the quaternion normalization limitation in UKF algorithm, a cost function based on the eigenvector resolution is derived to compute the average quaternion. To deal with the singularity of the quaternion covariance, we employ the multiplicative quaternion error to represent the distance between quaternion update points and the estimation points. The simulation results show that the proposed algorithm provides higher estimation precision than the EKF algorithm, and achieves almost the same estimation precision as the full-dimension UKF and Modified Rodrigues parameter UKF. Furthermore, this algorithm needs shorter estimation time than all other algorithms mentioned above.