Availability of higher capacity for both uplinks and downlinks is expected in the future deep-space missions on Mars, thus enabling a large range of services that could eventually support human remote operations. The provisioning for deep-space links offering data rate up to several megabits per second will be a crucial element to allow new services for the space domain along with the common telecommand and telemetry services with enhanced communication capabilities. On the other hand, also the geometry proper of this scenario with orbiting and landed elements sharing only partial visibility among them and towards Earth provides another challenge. This paper surveys the reliability options that are available in the Consultative Committee for Space Data Systems (CCSDS) Protocol Stack for application in the deep-space missions. In particular, the solutions implemented from the physical up to the application layer are illustrated in terms of channel coding and Automatic Retransmission reQuest (ARQ) schemes. Finally, advanced reliability strategies possibly applicable in next-generation deep-space missions are explored as well.

T. De Cola, E. Paolini, G. Liva, G.P. Calzolari (2011). Reliability Options for Data Communications in the Future Deep-Space Missions. PROCEEDINGS OF THE IEEE, 99(11), 2056-2074 [10.1109/JPROC.2011.2159571].

Reliability Options for Data Communications in the Future Deep-Space Missions

PAOLINI, ENRICO;
2011

Abstract

Availability of higher capacity for both uplinks and downlinks is expected in the future deep-space missions on Mars, thus enabling a large range of services that could eventually support human remote operations. The provisioning for deep-space links offering data rate up to several megabits per second will be a crucial element to allow new services for the space domain along with the common telecommand and telemetry services with enhanced communication capabilities. On the other hand, also the geometry proper of this scenario with orbiting and landed elements sharing only partial visibility among them and towards Earth provides another challenge. This paper surveys the reliability options that are available in the Consultative Committee for Space Data Systems (CCSDS) Protocol Stack for application in the deep-space missions. In particular, the solutions implemented from the physical up to the application layer are illustrated in terms of channel coding and Automatic Retransmission reQuest (ARQ) schemes. Finally, advanced reliability strategies possibly applicable in next-generation deep-space missions are explored as well.
2011
T. De Cola, E. Paolini, G. Liva, G.P. Calzolari (2011). Reliability Options for Data Communications in the Future Deep-Space Missions. PROCEEDINGS OF THE IEEE, 99(11), 2056-2074 [10.1109/JPROC.2011.2159571].
T. De Cola; E. Paolini; G. Liva; G.P. Calzolari
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/112318
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