Some results so far achieved in the framework of the HELIOS (Highly rEliable LInks during sOlar conjunctionS) Project, founded by the European Space Agency (ESA), are presented. The purpose of the project is the definition of a TT&C communication subsystem architecture (including both ground and space segments, as well as operational methods) being robust to impairments due to superior solar conjunction, especially when the Sun-Earth-Probe angle is below 5 degrees.
Simulating the Reliability of Radio Links during Superior Solar Conjunctions / Stocker, A.J.; Argyriou, A.; Giorgetti, A.; Paolini, E.; Siddle, D.R.; Tortora, P.; Zeqaj, A.; De Vicente, J.; Abello, R.; Mercolino, M.. - ELETTRONICO. - (2018), pp. 902 (5 pp.)-902 (5 pp.). (Intervento presentato al convegno 12th European Conference on Antennas and Propagation, EuCAP 2018 tenutosi a London, UK nel April 9-13, 2018) [10.1049/cp.2018.1261].
Simulating the Reliability of Radio Links during Superior Solar Conjunctions
Giorgetti, A.;Paolini, E.;Tortora, P.;ZEQAJ, AUREL;
2018
Abstract
Some results so far achieved in the framework of the HELIOS (Highly rEliable LInks during sOlar conjunctionS) Project, founded by the European Space Agency (ESA), are presented. The purpose of the project is the definition of a TT&C communication subsystem architecture (including both ground and space segments, as well as operational methods) being robust to impairments due to superior solar conjunction, especially when the Sun-Earth-Probe angle is below 5 degrees.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
