We have performed a study on telecommunication systems for a hypothetical mission to Mars. The objective of the study was to evaluate and compare the benefits that microwave-X-band (8.4 GHz) and Ka-band (32 GHz) - and optical communications technologies a afford to future missions. The telecommunication systems were required to return data after launch and in orbit at 2.7 AU with daily data volumes of 0.1, 1.0, or 10.0 Gbits (Gb). Spacecraft terminals capable of delivering each of the three data volumes were proposed and characterized in terms of mass, power consumption, size, and cost. The estimated parameters for X-band, Ka-band, and optical frequencies are compared and presented here. For all cases, the optical light terminal exhibits ab...
Laser technology will outperform microwave technology for wideband data links between earth-orbiting...
High capacity space communications has been a desire for Human Exploration and Science missions. Cur...
The integrated radio and optical communications (iROC) project at the NASA Glenn Research Center (GR...
We have performed a study on telecommunication systems for a hypothetical mission to Mars. The objec...
Evaluation of microwave, millimeter, and optical communication systems for space communications from...
Future planetary campaigns, including human missions, will require data rates difficult to realize b...
Unique requirements imposed on deep space telecommunications, such as operation at extreme ranges, h...
NASA's Exploration and Space Communications projects division recently completed an investigative st...
Efficient and accurate communication are two of the most important aspects in a communications syste...
Optical communications can provide high-data-rate telemetry from deep-space probes with subsystems t...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
High capacity space communications has been a desire for Human Exploration and Science missions. Cur...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
In the near future the National Aeronautics and Space Administration anticipates a significant incre...
Optical or laser-based communication systems are expected to supplement microwave based systems for ...
Laser technology will outperform microwave technology for wideband data links between earth-orbiting...
High capacity space communications has been a desire for Human Exploration and Science missions. Cur...
The integrated radio and optical communications (iROC) project at the NASA Glenn Research Center (GR...
We have performed a study on telecommunication systems for a hypothetical mission to Mars. The objec...
Evaluation of microwave, millimeter, and optical communication systems for space communications from...
Future planetary campaigns, including human missions, will require data rates difficult to realize b...
Unique requirements imposed on deep space telecommunications, such as operation at extreme ranges, h...
NASA's Exploration and Space Communications projects division recently completed an investigative st...
Efficient and accurate communication are two of the most important aspects in a communications syste...
Optical communications can provide high-data-rate telemetry from deep-space probes with subsystems t...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
High capacity space communications has been a desire for Human Exploration and Science missions. Cur...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
In the near future the National Aeronautics and Space Administration anticipates a significant incre...
Optical or laser-based communication systems are expected to supplement microwave based systems for ...
Laser technology will outperform microwave technology for wideband data links between earth-orbiting...
High capacity space communications has been a desire for Human Exploration and Science missions. Cur...
The integrated radio and optical communications (iROC) project at the NASA Glenn Research Center (GR...