Mission operation planning is a critical and multidisciplinary feature in conducting satellite missions. Satellite operations can be divided into three phases: initial phase, operational or nominal phase, and disposal. All the tasks of these phases might be handled onboard, using a specified level of autonomy. On the other hand, a combination of onboard management and ground station (GS) telecommands can be used to perform the mentioned tasks. In the present work, a mission operation plan has been developed for a remote sensing low earth orbit (LEO) microsatellite using the semiautomated method, covering all operational phases of the satellite. The proper level of in-orbit autonomy enables the satellite to perform mission-specified tasks when out of ground station coverage. Additionally, microsatellite operational architecture for all in-orbit phases is presented. A basic timetable of the onboard control procedure is described, representing the satellite mission tasks and their corresponding sequence, and the microsatellite contingency plan with regard to mission priorities and electrical power constraints is explained.
Semiautonomous Mission Operation Plan for a Remote Sensing Leo Microsatellite
Journal of Aerospace Engineering ; 29 , 1
29.04.2015
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Semiautonomous Mission Operation Plan for a Remote Sensing Leo Microsatellite
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