Agile Earth observation satellite missions are becoming more and more important due to their capability to perform
fast reorientation maneuvers with 3 degrees of freedom to capture different target areas along the orbital path, thus
increasing the observed area and complexity of scans. The design of an agile Earth observation satellite mission
is a non-trivial task due to the fact that a trade-off between observed area and complexity of the scans on the one
hand and degree of agility available and thus performance of the attitude control devices on the other hand has to be
done. Additionally, the designed mission has to be evaluated in a realistic environment also taking into account the
specific characteristics of the chosen actuators. In the present work, several methods are combined to provide an
integrated analysis of agile Earth observation satellite missions starting from the definition of a desired ground scan
scenario, going via the creation of a guidance profile to a realistic simulation and ending at the verification of the
feasibility by detailed closed-loop simulation. Regarding its technical implementation at Astrium GmbH, well-proven
tools for the different tasks of the analysis are incorporated and well defined interfaces for those tools are specified,
allowing a high degree of automatism and thus saving time and minimizing errors. This results in a complete endto-
end process for the design, analysis and verification of agile Earth observation satellite missions. This process is
demonstrated by means of an example analysis using Control Moment Gyros for a high agility mission.
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Agile Earth observation satellite missions are becoming more and more important due to their capability to perform
fast reorientation maneuvers with 3 degrees of freedom to capture different target areas along the orbital path, thus
increasing the observed area and complexity of scans. The design of an agile Earth observation satellite mission
is a non-trivial task due to the fact that a trade-off between observed area and complexity of the scans on the one
hand and degree of agility availab...
»
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