COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL

Yu Cheng; Dong Qiao; Yijun Lian; Changxuan Wen

COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL

Yu Cheng, Dong Qiao, Yijun Lian, Changxuan Wen

宇航学院

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

摘要

This paper studies the collision avoidance problem for the bounded formation obtained by the Hamiltonian structure-preserving control method, along the low-energy lunar halo transfer trajectory. Collision risk arises in close formations along the reference trajectory with given control gains. To avoid any possible collisions, an artificial potential approach is proposed to guarantee a minimum safety distance between the follower and the leader. The Hamiltonian structure of the collision-free controlled system can be preserved, and the sufficient condition to maintain the controlled stability is provided. Numerical results show that collision-free formation can be achieved by the proposed approach, and the control cost is less than 4 m/s for 1 km initial separation.

源语言	英语
主期刊名	ASTRODYNAMICS 2020
编辑	Roby S. Wilson, Jinjun Shan, Kathleen C. Howell, Felix R. Hoots
出版商	Univelt Inc.
页	3947-3960
页数	14
ISBN（印刷版）	9780877036753
出版状态	已出版 - 2021
活动	AAS/AIAA Astrodynamics Specialist Conference, 2020 - Virtual, Online 期限: 9 8月 2020 → 12 8月 2020

出版系列

姓名	Advances in the Astronautical Sciences
卷	175
ISSN（印刷版）	0065-3438

会议

会议	AAS/AIAA Astrodynamics Specialist Conference, 2020
市	Virtual, Online
时期	9/08/20 → 12/08/20

其它文件与链接

链接到 Scopus 的出版物

引用此

@inproceedings{ee64eb4dba8d4c778b02962df4508973,

title = "COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL",

abstract = "This paper studies the collision avoidance problem for the bounded formation obtained by the Hamiltonian structure-preserving control method, along the low-energy lunar halo transfer trajectory. Collision risk arises in close formations along the reference trajectory with given control gains. To avoid any possible collisions, an artificial potential approach is proposed to guarantee a minimum safety distance between the follower and the leader. The Hamiltonian structure of the collision-free controlled system can be preserved, and the sufficient condition to maintain the controlled stability is provided. Numerical results show that collision-free formation can be achieved by the proposed approach, and the control cost is less than 4 m/s for 1 km initial separation.",

author = "Yu Cheng and Dong Qiao and Yijun Lian and Changxuan Wen",

year = "2021",

language = "English",

isbn = "9780877036753",

series = "Advances in the Astronautical Sciences",

publisher = "Univelt Inc.",

pages = "3947--3960",

editor = "Wilson, {Roby S.} and Jinjun Shan and Howell, {Kathleen C.} and Hoots, {Felix R.}",

booktitle = "ASTRODYNAMICS 2020",

address = "United States",

}

COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL. / Cheng, Yu; Qiao, Dong; Lian, Yijun 等.
ASTRODYNAMICS 2020. 编辑 / Roby S. Wilson; Jinjun Shan; Kathleen C. Howell; Felix R. Hoots. Univelt Inc., 2021. 页码 3947-3960 (Advances in the Astronautical Sciences; 卷 175).

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

TY - GEN

T1 - COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL

AU - Cheng, Yu

AU - Qiao, Dong

AU - Lian, Yijun

AU - Wen, Changxuan

PY - 2021

Y1 - 2021

N2 - This paper studies the collision avoidance problem for the bounded formation obtained by the Hamiltonian structure-preserving control method, along the low-energy lunar halo transfer trajectory. Collision risk arises in close formations along the reference trajectory with given control gains. To avoid any possible collisions, an artificial potential approach is proposed to guarantee a minimum safety distance between the follower and the leader. The Hamiltonian structure of the collision-free controlled system can be preserved, and the sufficient condition to maintain the controlled stability is provided. Numerical results show that collision-free formation can be achieved by the proposed approach, and the control cost is less than 4 m/s for 1 km initial separation.

AB - This paper studies the collision avoidance problem for the bounded formation obtained by the Hamiltonian structure-preserving control method, along the low-energy lunar halo transfer trajectory. Collision risk arises in close formations along the reference trajectory with given control gains. To avoid any possible collisions, an artificial potential approach is proposed to guarantee a minimum safety distance between the follower and the leader. The Hamiltonian structure of the collision-free controlled system can be preserved, and the sufficient condition to maintain the controlled stability is provided. Numerical results show that collision-free formation can be achieved by the proposed approach, and the control cost is less than 4 m/s for 1 km initial separation.

UR - http://www.scopus.com/inward/record.url?scp=85126248437&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85126248437

SN - 9780877036753

T3 - Advances in the Astronautical Sciences

SP - 3947

EP - 3960

BT - ASTRODYNAMICS 2020

A2 - Wilson, Roby S.

A2 - Shan, Jinjun

A2 - Howell, Kathleen C.

A2 - Hoots, Felix R.

PB - Univelt Inc.

T2 - AAS/AIAA Astrodynamics Specialist Conference, 2020

Y2 - 9 August 2020 through 12 August 2020

ER -

COLLISION-FREE FORMATION FLIGHT BASED ON HAMILTONIAN STRUCTURE-PRESERVING CONTROL

摘要

出版系列

会议

其它文件与链接

指纹

引用此