Abstract:
The ability to communicate with spacecraft during emergencies is a vital service that NASA’s Deep Space Network (DSN) provides to all deep space missions. Emergency communications is characterized by low data rates(typically ∼10 bps) with the spacecraft using either a low-gain antenna (LGA, including omnidirectional antennas) or,
in some cases, a medium-gain antenna (MGA). Because of the use of LGAs/MGAs for emergency communications, the transmitted power requirements both on the spacecraft and
on the ground are substantially greater than those required for normal operations on the high-gain antenna (HGA) despite the lower data rates. In this paper, we look at current
and future emergency communications capabilities available to NASA’s deep-space missions and discuss their limitations in the context of emergency mode operations requirements.
These discussions include the use of the DSN 70-m diameter antennas, the use of the 34-m diameter antennas either alone or arrayed both for the uplink (Earth-to-spacecraft) and the downlink (spacecraft-to-Earth), upgrades to the ground transmitters, and spacecraft power requirements both with unity
gain (0 dB) LGAs and with antennas with directivity (>0 dB gain, either LGA or MGA, depending on the gain). Also discussed are the requirements for forward-error-correcting
codes for both the uplink and the downlink. In additional, we introduce a methodology for proper selection of a directional
LGA/MGA for emergency communications.
