Autonomous small body flyby navigation based on vector measurement and UKBF

Xiao Ming Wang; Ping Yuan Cui; Hu Tao Cui

doi:10.3873/j.issn.1000-1328.2010.12.007

Autonomous small body flyby navigation based on vector measurement and UKBF

Xiao Ming Wang^*, Ping Yuan Cui, Hu Tao Cui

^*Corresponding author for this work

School of Aerospace Engineering

Harbin Institute of Technology

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

1 Citation (Scopus)

Abstract

For long communication delay induced by large distance from the Earth, autonomous navigation becomes a regarded technique for a spacecraft approaching a small body. In this work, an optical autonomous asteroid flyby navigation method is proposed based on line-of-sight (LOS) vector measurement. The LOS vector from spacecraft to target body is constructed by using optical navigation camera and altimeter. To avoid the model error of linearization and discretization, an UKBF (Unscented Kalman-Bucy Filter) algorithm is adopted to estimate the inertial position and velocity of spacecraft and target body. Observability of the navigation system is analyzed, and the proposed method is used for the simulation of Temple 1 flyby mission, theoretical analysis and simulation results demonstrate feasibility and effectiveness of the proposed method.

Original language	English
Pages (from-to)	2665-2670
Number of pages	6
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	31
Issue number	12
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2010.12.007
Publication status	Published - Dec 2010

Keywords

Autonomous navigation
Fly by
Line-of-sight vector
Observability
Small body
Spacecraft

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10.3873/j.issn.1000-1328.2010.12.007

Cite this

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title = "Autonomous small body flyby navigation based on vector measurement and UKBF",

abstract = "For long communication delay induced by large distance from the Earth, autonomous navigation becomes a regarded technique for a spacecraft approaching a small body. In this work, an optical autonomous asteroid flyby navigation method is proposed based on line-of-sight (LOS) vector measurement. The LOS vector from spacecraft to target body is constructed by using optical navigation camera and altimeter. To avoid the model error of linearization and discretization, an UKBF (Unscented Kalman-Bucy Filter) algorithm is adopted to estimate the inertial position and velocity of spacecraft and target body. Observability of the navigation system is analyzed, and the proposed method is used for the simulation of Temple 1 flyby mission, theoretical analysis and simulation results demonstrate feasibility and effectiveness of the proposed method.",

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T1 - Autonomous small body flyby navigation based on vector measurement and UKBF

AU - Wang, Xiao Ming

AU - Cui, Ping Yuan

AU - Cui, Hu Tao

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N2 - For long communication delay induced by large distance from the Earth, autonomous navigation becomes a regarded technique for a spacecraft approaching a small body. In this work, an optical autonomous asteroid flyby navigation method is proposed based on line-of-sight (LOS) vector measurement. The LOS vector from spacecraft to target body is constructed by using optical navigation camera and altimeter. To avoid the model error of linearization and discretization, an UKBF (Unscented Kalman-Bucy Filter) algorithm is adopted to estimate the inertial position and velocity of spacecraft and target body. Observability of the navigation system is analyzed, and the proposed method is used for the simulation of Temple 1 flyby mission, theoretical analysis and simulation results demonstrate feasibility and effectiveness of the proposed method.

AB - For long communication delay induced by large distance from the Earth, autonomous navigation becomes a regarded technique for a spacecraft approaching a small body. In this work, an optical autonomous asteroid flyby navigation method is proposed based on line-of-sight (LOS) vector measurement. The LOS vector from spacecraft to target body is constructed by using optical navigation camera and altimeter. To avoid the model error of linearization and discretization, an UKBF (Unscented Kalman-Bucy Filter) algorithm is adopted to estimate the inertial position and velocity of spacecraft and target body. Observability of the navigation system is analyzed, and the proposed method is used for the simulation of Temple 1 flyby mission, theoretical analysis and simulation results demonstrate feasibility and effectiveness of the proposed method.

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KW - Fly by

KW - Line-of-sight vector

KW - Observability

KW - Small body

KW - Spacecraft

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Autonomous small body flyby navigation based on vector measurement and UKBF

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Keywords

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