The study proposes and tests Multi-purpose Earth Orbit Navigation System (MEONS) architecture aimed at providing a proper GNSS based orbit sequential estimation strategy to override rising scenario criticalities. The activity is focused on a complete feasibility and performance assessment of the developed filtering scheme by testing it on a high fidelity LEO-MEO autonomous transfer simulation. Stability and navigation accuracy of the proposed MEONS architecture is thus verified.
Multipurpose Earth Orbit Navigation System for autonomous orbit determination during satellite low thrust LEO-MEO transfer / Menzione, F.; Ferraro, R.; Renga, Alfredo; Grassi, Michele. - (2016), pp. 319-324. (Intervento presentato al convegno Metrology for Aerospace tenutosi a Firenze nel 22-23 Giugno 2016) [10.1109/MetroAeroSpace.2016.7573234].
Multipurpose Earth Orbit Navigation System for autonomous orbit determination during satellite low thrust LEO-MEO transfer
RENGA, ALFREDO;GRASSI, MICHELE
2016
Abstract
The study proposes and tests Multi-purpose Earth Orbit Navigation System (MEONS) architecture aimed at providing a proper GNSS based orbit sequential estimation strategy to override rising scenario criticalities. The activity is focused on a complete feasibility and performance assessment of the developed filtering scheme by testing it on a high fidelity LEO-MEO autonomous transfer simulation. Stability and navigation accuracy of the proposed MEONS architecture is thus verified.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.