Solar sailing Apophis rendezvous mission with fuel-fixed delta-v

Xiangyuan Zeng; Jing He; Junfeng Li; Shengping Gong; Xingshan Caf; Zhiguo Zhang

Solar sailing Apophis rendezvous mission with fuel-fixed delta-v

Xiangyuan Zeng, Jing He, Junfeng Li, Shengping Gong, Xingshan Caf, Zhiguo Zhang

Tsinghua University

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

摘要

The subject of this paper is the trajectory design and optimization for Apophis rendezvous missions by using solar sailing. An ideally reflective sail model is utilized in the two body dynamic equations. Hyperbolic excess velocities at the departure and rendezvous points are considered with a fixed maximum magnitude. The time optimal control problem is solved by using an indirect method yielding a two point boundary value problem. Numerical examples and discussions are presented for a near term realistic solar sail in a characteristic acceleration of 1 mm/s². The highest impulsive velocity is no more than 5 km/s. The effect of departure excess velocities, arrival velocities and their combinations are investigated in a parametric way. The time optimal trajectories are studied with different impulsive velocities with launch windows after January 1, 2013 in a synodic period of the Earth and Apophis.

源语言	英语
主期刊名	Advances In The Astronautical Sciences
编辑	Donald L. Mackison, Ossama Abdelkhalik, Roby S. Wilson, Renato Zanetti
出版商	Univelt Inc.
页	2043-2054
页数	12
ISBN（电子版）	9780877036111
出版状态	已出版 - 2014
已对外发布	是
活动	24th AAS/AIAA Space Flight Mechanics Meeting, 2014 - Mexico, 美国期限: 26 1月 2014 → 30 1月 2014

出版系列

姓名	Advances in the Astronautical Sciences
卷	152
ISSN（印刷版）	0065-3438

会议

会议	24th AAS/AIAA Space Flight Mechanics Meeting, 2014
国家/地区	美国
市	Mexico
时期	26/01/14 → 30/01/14

其它文件与链接

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引用此

Zeng, X., He, J., Li, J., Gong, S., Caf, X., & Zhang, Z. (2014). Solar sailing Apophis rendezvous mission with fuel-fixed delta-v. 在 D. L. Mackison, O. Abdelkhalik, R. S. Wilson, & R. Zanetti (编辑), Advances In The Astronautical Sciences (页码 2043-2054). (Advances in the Astronautical Sciences; 卷 152). Univelt Inc..

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title = "Solar sailing Apophis rendezvous mission with fuel-fixed delta-v",

abstract = "The subject of this paper is the trajectory design and optimization for Apophis rendezvous missions by using solar sailing. An ideally reflective sail model is utilized in the two body dynamic equations. Hyperbolic excess velocities at the departure and rendezvous points are considered with a fixed maximum magnitude. The time optimal control problem is solved by using an indirect method yielding a two point boundary value problem. Numerical examples and discussions are presented for a near term realistic solar sail in a characteristic acceleration of 1 mm/s2. The highest impulsive velocity is no more than 5 km/s. The effect of departure excess velocities, arrival velocities and their combinations are investigated in a parametric way. The time optimal trajectories are studied with different impulsive velocities with launch windows after January 1, 2013 in a synodic period of the Earth and Apophis.",

author = "Xiangyuan Zeng and Jing He and Junfeng Li and Shengping Gong and Xingshan Caf and Zhiguo Zhang",

year = "2014",

language = "English",

series = "Advances in the Astronautical Sciences",

publisher = "Univelt Inc.",

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editor = "Mackison, {Donald L.} and Ossama Abdelkhalik and Wilson, {Roby S.} and Renato Zanetti",

booktitle = "Advances In The Astronautical Sciences",

address = "United States",

note = "24th AAS/AIAA Space Flight Mechanics Meeting, 2014 ; Conference date: 26-01-2014 Through 30-01-2014",

}

Zeng, X, He, J, Li, J, Gong, S, Caf, X & Zhang, Z 2014, Solar sailing Apophis rendezvous mission with fuel-fixed delta-v. 在 DL Mackison, O Abdelkhalik, RS Wilson & R Zanetti (编辑), Advances In The Astronautical Sciences. Advances in the Astronautical Sciences, 卷 152, Univelt Inc., 页码 2043-2054, 24th AAS/AIAA Space Flight Mechanics Meeting, 2014, Mexico, 美国, 26/01/14.

Solar sailing Apophis rendezvous mission with fuel-fixed delta-v. / Zeng, Xiangyuan; He, Jing; Li, Junfeng 等.
Advances In The Astronautical Sciences. 编辑 / Donald L. Mackison; Ossama Abdelkhalik; Roby S. Wilson; Renato Zanetti. Univelt Inc., 2014. 页码 2043-2054 (Advances in the Astronautical Sciences; 卷 152).

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

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AU - Zhang, Zhiguo

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AB - The subject of this paper is the trajectory design and optimization for Apophis rendezvous missions by using solar sailing. An ideally reflective sail model is utilized in the two body dynamic equations. Hyperbolic excess velocities at the departure and rendezvous points are considered with a fixed maximum magnitude. The time optimal control problem is solved by using an indirect method yielding a two point boundary value problem. Numerical examples and discussions are presented for a near term realistic solar sail in a characteristic acceleration of 1 mm/s2. The highest impulsive velocity is no more than 5 km/s. The effect of departure excess velocities, arrival velocities and their combinations are investigated in a parametric way. The time optimal trajectories are studied with different impulsive velocities with launch windows after January 1, 2013 in a synodic period of the Earth and Apophis.

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PB - Univelt Inc.

T2 - 24th AAS/AIAA Space Flight Mechanics Meeting, 2014

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ER -

Solar sailing Apophis rendezvous mission with fuel-fixed delta-v

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出版系列

会议

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