Relative attitude determination based on extended Kalman filtering

Yong Qiang Jin; Xiang Dong Liu; Chao Zhen Hou

Relative attitude determination based on extended Kalman filtering

Yong Qiang Jin^*, Xiang Dong Liu, Chao Zhen Hou

^*Corresponding author for this work

School of Automation

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

In spacecraft formation flying application, relative attitude of the deputy spacecraft with respect to the chief spacecraft needs to be determined. Relative attitude determination based on extended Kalman filtering (EKF) is presented. The modified Rodrigues parameters (MRPs) are here adopted as the attitude variables, which has no redundancy and has the largest unsingular range. Attitude sensors include star tracker, laser rendezvous radar and gyro, and measurement equations of the sensors are given. The state equation of the EKF is obtained from the relative attitude dynamic equation. Simulation results based on the given EKF model showed that the state variables of the EKF converge within at most 300s, and that, during the steady state, the estimate error of MRPs is within 10^-5 showing the validity of the proposed method.

Original language	English
Pages (from-to)	896-900
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	27
Issue number	10
Publication status	Published - Oct 2007

Keywords

Extended Kalman filtering
Laser rendezvous radar
Modified Rodrigues parameters
Relative attitude determination

Cite this

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title = "Relative attitude determination based on extended Kalman filtering",

abstract = "In spacecraft formation flying application, relative attitude of the deputy spacecraft with respect to the chief spacecraft needs to be determined. Relative attitude determination based on extended Kalman filtering (EKF) is presented. The modified Rodrigues parameters (MRPs) are here adopted as the attitude variables, which has no redundancy and has the largest unsingular range. Attitude sensors include star tracker, laser rendezvous radar and gyro, and measurement equations of the sensors are given. The state equation of the EKF is obtained from the relative attitude dynamic equation. Simulation results based on the given EKF model showed that the state variables of the EKF converge within at most 300s, and that, during the steady state, the estimate error of MRPs is within 10-5 showing the validity of the proposed method.",

keywords = "Extended Kalman filtering, Laser rendezvous radar, Modified Rodrigues parameters, Relative attitude determination",

author = "Jin, \{Yong Qiang\} and Liu, \{Xiang Dong\} and Hou, \{Chao Zhen\}",

year = "2007",

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TY - JOUR

T1 - Relative attitude determination based on extended Kalman filtering

AU - Jin, Yong Qiang

AU - Liu, Xiang Dong

AU - Hou, Chao Zhen

PY - 2007/10

Y1 - 2007/10

N2 - In spacecraft formation flying application, relative attitude of the deputy spacecraft with respect to the chief spacecraft needs to be determined. Relative attitude determination based on extended Kalman filtering (EKF) is presented. The modified Rodrigues parameters (MRPs) are here adopted as the attitude variables, which has no redundancy and has the largest unsingular range. Attitude sensors include star tracker, laser rendezvous radar and gyro, and measurement equations of the sensors are given. The state equation of the EKF is obtained from the relative attitude dynamic equation. Simulation results based on the given EKF model showed that the state variables of the EKF converge within at most 300s, and that, during the steady state, the estimate error of MRPs is within 10-5 showing the validity of the proposed method.

AB - In spacecraft formation flying application, relative attitude of the deputy spacecraft with respect to the chief spacecraft needs to be determined. Relative attitude determination based on extended Kalman filtering (EKF) is presented. The modified Rodrigues parameters (MRPs) are here adopted as the attitude variables, which has no redundancy and has the largest unsingular range. Attitude sensors include star tracker, laser rendezvous radar and gyro, and measurement equations of the sensors are given. The state equation of the EKF is obtained from the relative attitude dynamic equation. Simulation results based on the given EKF model showed that the state variables of the EKF converge within at most 300s, and that, during the steady state, the estimate error of MRPs is within 10-5 showing the validity of the proposed method.

KW - Extended Kalman filtering

KW - Laser rendezvous radar

KW - Modified Rodrigues parameters

KW - Relative attitude determination

UR - https://www.scopus.com/pages/publications/36248990881

M3 - Article

AN - SCOPUS:36248990881

SN - 1001-0645

VL - 27

SP - 896

EP - 900

JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 10

ER -

Relative attitude determination based on extended Kalman filtering

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Keywords

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