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Lunar far side positioning enabled by a CubeSat system deployed in an Earth-Moon halo orbit

Lunar far side positioning enabled by a CubeSat system deployed in an Earth-Moon halo orbit
Lunar far side positioning enabled by a CubeSat system deployed in an Earth-Moon halo orbit

For explorations of the far side of the Moon, it is necessary to tackle the challenge of navigation and communication as the far side is invisible to the Earth. This paper proposes a low-cost mission concept that consists of four CubeSats in an Earth-Moon L2 (EML2) halo orbit. The mission objective is to provide real-time positioning service for lunar far-side assets, taking advantage of the visibility of EML2 halo orbits to both the Earth and lunar far side. Being miniature, CubeSats can be carried by a mother spacecraft and deployed during the mid-course. As CubeSat missions are generally constrained by limited communication, power, and propulsion capacities, this paper presents a feasibility study that takes into account the high-fidelity dynamical environment and system constraints. This paper analyzes the positioning performance in terms of accuracy, and spatial and temporal coverage. In addition, the requirement of deployment in terms of Δv budget and thrust magnitude is also investigated. Results show that (1) a positioning accuracy of 2.7 km is achievable; and (2) several state-of-the-art propulsion systems can meet the requirement of deployment and the stationkeeping for an acceptable duration.

Inter-sat tracking, Lunar CubeSats, Lunar far side, Positioning constellations, Trajectory optimization
0273-1177
28-41
Chen, Hongru
8286469d-afe1-46e5-b107-694017de4d97
Liu, Jiangkai
c6139422-9739-466e-8d4b-a0ac7d2e9fbd
Long, Long
438974cb-4361-4a56-be2d-3875def813c2
Xu, Zhenyu
ad2b4e72-a824-47c2-ab6a-15adfc5f0a50
Meng, Yazhe
4ce8d4fb-8416-4b98-be42-7b4d29f74de8
Zhang, Hao
6b809119-4403-4075-aedd-04dcc1c674ab
Chen, Hongru
8286469d-afe1-46e5-b107-694017de4d97
Liu, Jiangkai
c6139422-9739-466e-8d4b-a0ac7d2e9fbd
Long, Long
438974cb-4361-4a56-be2d-3875def813c2
Xu, Zhenyu
ad2b4e72-a824-47c2-ab6a-15adfc5f0a50
Meng, Yazhe
4ce8d4fb-8416-4b98-be42-7b4d29f74de8
Zhang, Hao
6b809119-4403-4075-aedd-04dcc1c674ab

Chen, Hongru, Liu, Jiangkai, Long, Long, Xu, Zhenyu, Meng, Yazhe and Zhang, Hao (2019) Lunar far side positioning enabled by a CubeSat system deployed in an Earth-Moon halo orbit. Advances in Space Research, 64 (1), 28-41. (doi:10.1016/j.asr.2019.03.031).

Record type: Article

Abstract

For explorations of the far side of the Moon, it is necessary to tackle the challenge of navigation and communication as the far side is invisible to the Earth. This paper proposes a low-cost mission concept that consists of four CubeSats in an Earth-Moon L2 (EML2) halo orbit. The mission objective is to provide real-time positioning service for lunar far-side assets, taking advantage of the visibility of EML2 halo orbits to both the Earth and lunar far side. Being miniature, CubeSats can be carried by a mother spacecraft and deployed during the mid-course. As CubeSat missions are generally constrained by limited communication, power, and propulsion capacities, this paper presents a feasibility study that takes into account the high-fidelity dynamical environment and system constraints. This paper analyzes the positioning performance in terms of accuracy, and spatial and temporal coverage. In addition, the requirement of deployment in terms of Δv budget and thrust magnitude is also investigated. Results show that (1) a positioning accuracy of 2.7 km is achievable; and (2) several state-of-the-art propulsion systems can meet the requirement of deployment and the stationkeeping for an acceptable duration.

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More information

Accepted/In Press date: 21 March 2019
e-pub ahead of print date: 3 April 2019
Published date: 3 June 2019
Keywords: Inter-sat tracking, Lunar CubeSats, Lunar far side, Positioning constellations, Trajectory optimization

Identifiers

Local EPrints ID: 490810
URI: http://eprints.soton.ac.uk/id/eprint/490810
DOI: doi:10.1016/j.asr.2019.03.031
ISSN: 0273-1177
PURE UUID: 56d2cd27-0677-4fd7-bf4d-ccabb6d79ebe
ORCID for Hongru Chen: ORCID iD orcid.org/0000-0001-9453-6962

Catalogue record

Date deposited: 06 Jun 2024 17:06
Last modified: 07 Jun 2024 02:09

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Contributors

Author: Hongru Chen ORCID iD
Author: Jiangkai Liu
Author: Long Long
Author: Zhenyu Xu
Author: Yazhe Meng
Author: Hao Zhang

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