On Development of 100-Gram-Class Spacecraft for Swarm Applications

On Development of 100-Gram-Class Spacecraft for Swarm Applications

A novel space system architecture is proposed, which would enable 100-g-class spacecraft to be flown as swarms (100 s-1000 s) in low Earth orbit. Swarms of Silicon Wafer Integrated Femtosatellites (SWIFT) present a paradigm-shifting approach to distributed spacecraft development, missions, and appli...

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Veröffentlicht in:IEEE systems journal 2016-06, Vol.10 (2), p.673-684
Hauptverfasser: Hadaegh, Fred Y., Soon-Jo Chung, Manohara, Harish M.
Format: Artikel
Sprache:eng
Schlagworte:
Apertures
Architecture (computers)
Arrays
Autonomous agents
control systems
distributed control
Fabrication
Low earth orbit satellites
Mathematical model
Navigation
Orbits
Performance measurement
Propulsion
satellites
Sensor arrays
Silicon
space technology
Space vehicles
Spacecraft
Ultrafast electronics
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Beschreibung
Zusammenfassung:A novel space system architecture is proposed, which would enable 100-g-class spacecraft to be flown as swarms (100 s-1000 s) in low Earth orbit. Swarms of Silicon Wafer Integrated Femtosatellites (SWIFT) present a paradigm-shifting approach to distributed spacecraft development, missions, and applications. Potential applications of SWIFT swarms include sparse aperture arrays and distributed sensor networks. New swarm array configurations are introduced and shown to achieve the effective sparse aperture driven from optical performance metrics. A system cost analysis based on this comparison justifies deploying a large number of femtosatellites for sparse aperture applications. Moreover, this paper discusses promising guidance, control, and navigation methods for swarms of femtosatellites equipped with modest sensing and control capabilities.
ISSN:1932-8184
1937-9234
DOI:10.1109/JSYST.2014.2327972