Distributed architectures of hybrid sensors could greatly support the future launch vehicles navigation systems and avionics in the perspective of a significant increase of the space launches in the future years and decades. While the current architectures rely on high-TRL, costly, centralized sensors, similar performances could be reached by distributed networks of lower TRL, lower cost sensors. This paper introduces a concept for a hybrid network of sensors and will describe the prototypes and tests for several categories of implemented sensors.
Distributed hybrid sensors architectures for launch vehicle avionics and future space transportation systems / Marzioli, P.; Frezza, L.. - (2021), pp. 7-12. (Intervento presentato al convegno 8th IEEE International workshop on metrology for aeroSpace, metroaerospace 2021 tenutosi a Virtual, online) [10.1109/MetroAeroSpace51421.2021.9511749].
Distributed hybrid sensors architectures for launch vehicle avionics and future space transportation systems
Marzioli P.;Frezza L.
2021
Abstract
Distributed architectures of hybrid sensors could greatly support the future launch vehicles navigation systems and avionics in the perspective of a significant increase of the space launches in the future years and decades. While the current architectures rely on high-TRL, costly, centralized sensors, similar performances could be reached by distributed networks of lower TRL, lower cost sensors. This paper introduces a concept for a hybrid network of sensors and will describe the prototypes and tests for several categories of implemented sensors.| File | Dimensione | Formato | |
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