Autonomous GNC technology for landing on small bodies

Shuang Li; Hu Tao Cui; Ping Yuan Cui

Autonomous GNC technology for landing on small bodies

Shuang Li^*, Hu Tao Cui, Ping Yuan Cui

^*Corresponding author for this work

Harbin Institute of Technology

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

9 Citations (Scopus)

Abstract

Due to long communication delay between target asteroid and base stations and complex mutable dynamic environment of small body, the traditional GNC mode based on deep space network (DSN) is no more suitable for landing spacecraft on small body. Probe must have the ability of autonomous GNC to perform landing safely. An autonomous GNC scheme for landing on small body polar region is presented in this paper. First, based on autonomous detection and tracking nature feature points, an autonomous optical navigation algorithm is built out; second, in order to achieve vertical landing, PD guidance control laws are designed to track desired descent trajectory and eliminate lateral position errors and velocity errors. Finally, the validity of the proposed scheme is confirmed by numerical simulation.

Original language	English
Pages (from-to)	21-26
Number of pages	6
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	27
Issue number	1
Publication status	Published - Jan 2006
Externally published	Yes

Keywords

Autonomous GNC
Extended Kalman filter
Feature tracking
Small body
Soft landing

Cite this

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title = "Autonomous GNC technology for landing on small bodies",

abstract = "Due to long communication delay between target asteroid and base stations and complex mutable dynamic environment of small body, the traditional GNC mode based on deep space network (DSN) is no more suitable for landing spacecraft on small body. Probe must have the ability of autonomous GNC to perform landing safely. An autonomous GNC scheme for landing on small body polar region is presented in this paper. First, based on autonomous detection and tracking nature feature points, an autonomous optical navigation algorithm is built out; second, in order to achieve vertical landing, PD guidance control laws are designed to track desired descent trajectory and eliminate lateral position errors and velocity errors. Finally, the validity of the proposed scheme is confirmed by numerical simulation.",

keywords = "Autonomous GNC, Extended Kalman filter, Feature tracking, Small body, Soft landing",

author = "Shuang Li and Cui, {Hu Tao} and Cui, {Ping Yuan}",

year = "2006",

month = jan,

language = "English",

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AU - Li, Shuang

AU - Cui, Hu Tao

AU - Cui, Ping Yuan

PY - 2006/1

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N2 - Due to long communication delay between target asteroid and base stations and complex mutable dynamic environment of small body, the traditional GNC mode based on deep space network (DSN) is no more suitable for landing spacecraft on small body. Probe must have the ability of autonomous GNC to perform landing safely. An autonomous GNC scheme for landing on small body polar region is presented in this paper. First, based on autonomous detection and tracking nature feature points, an autonomous optical navigation algorithm is built out; second, in order to achieve vertical landing, PD guidance control laws are designed to track desired descent trajectory and eliminate lateral position errors and velocity errors. Finally, the validity of the proposed scheme is confirmed by numerical simulation.

AB - Due to long communication delay between target asteroid and base stations and complex mutable dynamic environment of small body, the traditional GNC mode based on deep space network (DSN) is no more suitable for landing spacecraft on small body. Probe must have the ability of autonomous GNC to perform landing safely. An autonomous GNC scheme for landing on small body polar region is presented in this paper. First, based on autonomous detection and tracking nature feature points, an autonomous optical navigation algorithm is built out; second, in order to achieve vertical landing, PD guidance control laws are designed to track desired descent trajectory and eliminate lateral position errors and velocity errors. Finally, the validity of the proposed scheme is confirmed by numerical simulation.

KW - Autonomous GNC

KW - Extended Kalman filter

KW - Feature tracking

KW - Small body

KW - Soft landing

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JO - Yuhang Xuebao/Journal of Astronautics

JF - Yuhang Xuebao/Journal of Astronautics

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ER -

Autonomous GNC technology for landing on small bodies

Abstract

Keywords

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