Autonomous optical navigation for spacecraft around moon

Jun Wei Sun; Ping Yuan Cui; Xiang Yu Huang

Autonomous optical navigation for spacecraft around moon

Jun Wei Sun^*, Ping Yuan Cui, Xiang Yu Huang

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

The autonomous optical navigation algorithm for spacecraft around Moon using the Gauss-Markov process and Unscented Kalman filter is presented. For the problems arising from the absence of exact orbit dynamics models of spacecraft around Moon, the un-modeled acceleration of orbit dynamics is approximated by using the Gauss-Markov process in order to improve the precision of orbit dynamics. Considering the problems of orbit determination algorithm based on extended Kalman filter, the position, and velocity of spacecraft and the un-modeled acceleration are estimated by using the Unscented Kalman filter to improve the precision of orbit estimation and ensure the stability of algorithm. And the autonomous optical navigation algorithm is validated using the numerical simulation.

Original language	English
Pages (from-to)	1145-1149
Number of pages	5
Journal	Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica
Volume	27
Issue number	6
Publication status	Published - Nov 2006
Externally published	Yes

Keywords

Autonomous optical navigation
Gauss-Markov process
Spacecraft around moon
Unscented Kalman filter

Cite this

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title = "Autonomous optical navigation for spacecraft around moon",

abstract = "The autonomous optical navigation algorithm for spacecraft around Moon using the Gauss-Markov process and Unscented Kalman filter is presented. For the problems arising from the absence of exact orbit dynamics models of spacecraft around Moon, the un-modeled acceleration of orbit dynamics is approximated by using the Gauss-Markov process in order to improve the precision of orbit dynamics. Considering the problems of orbit determination algorithm based on extended Kalman filter, the position, and velocity of spacecraft and the un-modeled acceleration are estimated by using the Unscented Kalman filter to improve the precision of orbit estimation and ensure the stability of algorithm. And the autonomous optical navigation algorithm is validated using the numerical simulation.",

keywords = "Autonomous optical navigation, Gauss-Markov process, Spacecraft around moon, Unscented Kalman filter",

author = "Sun, {Jun Wei} and Cui, {Ping Yuan} and Huang, {Xiang Yu}",

year = "2006",

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language = "English",

volume = "27",

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AU - Sun, Jun Wei

AU - Cui, Ping Yuan

AU - Huang, Xiang Yu

PY - 2006/11

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N2 - The autonomous optical navigation algorithm for spacecraft around Moon using the Gauss-Markov process and Unscented Kalman filter is presented. For the problems arising from the absence of exact orbit dynamics models of spacecraft around Moon, the un-modeled acceleration of orbit dynamics is approximated by using the Gauss-Markov process in order to improve the precision of orbit dynamics. Considering the problems of orbit determination algorithm based on extended Kalman filter, the position, and velocity of spacecraft and the un-modeled acceleration are estimated by using the Unscented Kalman filter to improve the precision of orbit estimation and ensure the stability of algorithm. And the autonomous optical navigation algorithm is validated using the numerical simulation.

AB - The autonomous optical navigation algorithm for spacecraft around Moon using the Gauss-Markov process and Unscented Kalman filter is presented. For the problems arising from the absence of exact orbit dynamics models of spacecraft around Moon, the un-modeled acceleration of orbit dynamics is approximated by using the Gauss-Markov process in order to improve the precision of orbit dynamics. Considering the problems of orbit determination algorithm based on extended Kalman filter, the position, and velocity of spacecraft and the un-modeled acceleration are estimated by using the Unscented Kalman filter to improve the precision of orbit estimation and ensure the stability of algorithm. And the autonomous optical navigation algorithm is validated using the numerical simulation.

KW - Autonomous optical navigation

KW - Gauss-Markov process

KW - Spacecraft around moon

KW - Unscented Kalman filter

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JF - Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica

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Autonomous optical navigation for spacecraft around moon

Abstract

Keywords

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