Title:
Concept of Operations for the VISORS Mission: A Two Satellite Cubesat Formation Flying Telescope
Concept of Operations for the VISORS Mission: A Two Satellite Cubesat Formation Flying Telescope
Author(s)
Lightsey, E. Glenn
Arunkumar, Ebenezer
Kimmel, Elizabeth
Kolhof, Maximilian
Paletta, Antoine
Rawson, William
Selvamurugan, Shanmurugan
Sample, John
Guffanti, Tommaso
Bell, Toby
Koenig, Adam
D'Amico, Simone
Park, Hyeongjun
Rabin, Douglas
Daw, Adrian
Chamberlin, Phil
Kamalabadi, Farzad
Arunkumar, Ebenezer
Kimmel, Elizabeth
Kolhof, Maximilian
Paletta, Antoine
Rawson, William
Selvamurugan, Shanmurugan
Sample, John
Guffanti, Tommaso
Bell, Toby
Koenig, Adam
D'Amico, Simone
Park, Hyeongjun
Rabin, Douglas
Daw, Adrian
Chamberlin, Phil
Kamalabadi, Farzad
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Abstract
The Virtual Super-resolution Optics with Reconfigurable Swarms (VISORS) is a National Science Foundation (NSF) space physics mission which will detect and study fundamental energy-release regions in the solar corona. The VISORS mis-sion will image extreme ultraviolet (EUV) features on the Sun at a resolution of at least 0.2 arcseconds from Low Earth Orbit (LEO). To accomplish this objective, VISORS will use a pair of formation flying 6U CubeSats: one of which carries the observatory optics while the other contains the detector instrument. VISORS will serve as a proof of concept for this distributed instrument approach by obtaining at least one 10-second exposure image during its six-month mission life-time. Meeting the strict relative orbit requirements during science observations will demonstrate several technologies key to precise formation flying including intersatellite link, relative navigation, and autonomous maneuver planning. To satisfy these stringent mission requirements, a concept of operations has been established that requires maneuvering between a standby orbit where housekeeping tasks are performed and an actively maintained science orbit where observations are conducted. Formation acquisition, re-acquisition, fault recovery, and escape operations are also planned. This paper provides a description of the VISORS formation flying concept of operations: explaining the function and rationale of each operation mode, how these modes are designed, and how they collectively meet the mission requirements. Specific challenges and mission trades related to performing precision formation flight with CubeSats are discussed. A Failure Mode Effects and Criticality Analysis (FMECA) is conducted to assess the risk of collision under the most probable fault scenarios, which is used to inform the development of operational mitigation strategies and on-board fault tolerant collision avoidance (COLA) logic.
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Date Issued
2022-02
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Text
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Paper
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