Autonomous and Earth-Independent Orbit Determination for a Lunar Navigation Satellite System

In recent years, the number of expected missions to the Moon has increased significantly. With limited terrestrial-based infrastructure to support this number of missions, as well as restricted visibility over intended mission areas, there is a need for space navigation system autonomy. Autonomous o...

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Published in	Aerospace Vol. 11; no. 2; p. 153
Main Authors	Critchley-Marrows, Joshua J. R., Wu, Xiaofeng, Kawabata, Yosuke, Nakasuka, Shinichi
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.02.2024
Subjects	Artificial satellites Autonomous navigation Autonomy Communication Communications equipment Electronics in navigation Formation flying Global navigation satellite system guidance Infrastructure Intersatellite communications lunar Lunar environments Moon Motor vehicles. Aeronautics. Astronautics navigation Navigation satellites Navigation systems Onboard equipment Orbit determination Orbital mechanics Orbits PNT Satellite communications Satellite observation Satellites Sensors Space missions Space navigation TL1-4050 Visibility
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Abstract	In recent years, the number of expected missions to the Moon has increased significantly. With limited terrestrial-based infrastructure to support this number of missions, as well as restricted visibility over intended mission areas, there is a need for space navigation system autonomy. Autonomous on-board navigation systems in the lunar environment have been the subject of study by a number of authors. Suggested systems include optical navigation, high-sensitivity Global Navigation Satellite System (GNSS) receivers, and navigation-linked formation flying. This paper studies the interoperable nature and fusion of proposed autonomous navigation systems that are independent of Earth infrastructure, given challenges in distance and visibility. This capability is critically important for safe and resilient mission architectures. The proposed elliptical frozen orbits of lunar navigation satellite systems will be of special interest, investigating the derivation of orbit determination by non-terrestrial sources utilizing celestial observations and inter-satellite links. Potential orbit determination performances around 100 m are demonstrated, highlighting the potential of the approach for future lunar navigation infrastructure.
AbstractList	In recent years, the number of expected missions to the Moon has increased significantly. With limited terrestrial-based infrastructure to support this number of missions, as well as restricted visibility over intended mission areas, there is a need for space navigation system autonomy. Autonomous on-board navigation systems in the lunar environment have been the subject of study by a number of authors. Suggested systems include optical navigation, high-sensitivity Global Navigation Satellite System (GNSS) receivers, and navigation-linked formation flying. This paper studies the interoperable nature and fusion of proposed autonomous navigation systems that are independent of Earth infrastructure, given challenges in distance and visibility. This capability is critically important for safe and resilient mission architectures. The proposed elliptical frozen orbits of lunar navigation satellite systems will be of special interest, investigating the derivation of orbit determination by non-terrestrial sources utilizing celestial observations and inter-satellite links. Potential orbit determination performances around 100 m are demonstrated, highlighting the potential of the approach for future lunar navigation infrastructure.
Audience	Academic
Author	Xiaofeng Wu Joshua J. R. Critchley-Marrows Yosuke Kawabata Shinichi Nakasuka
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SubjectTerms	Artificial satellites Autonomous navigation Autonomy Communication Communications equipment Electronics in navigation Formation flying Global navigation satellite system guidance Infrastructure Intersatellite communications lunar Lunar environments Moon Motor vehicles. Aeronautics. Astronautics navigation Navigation satellites Navigation systems Onboard equipment Orbit determination Orbital mechanics Orbits PNT Satellite communications Satellite observation Satellites Sensors Space missions Space navigation TL1-4050 Visibility
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Title	Autonomous and Earth-Independent Orbit Determination for a Lunar Navigation Satellite System
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