A proposal for a Ka-Band (32 GHz) Link Experiment (KABLE) with the Mars Observer mission was submitted to NASA. The experiment will rely on the fourth harmonic of the spacecraft X-band transmitter to generate a 33.6 GHz signal. The experiment will rely also on the Deep Space Network (DSN) receiving station equipped to simultaneously receive X- and Ka-band signals. The experiment will accurately measure the spacecraft-to-Earth telecommunication link performance at Ka-band and X-band (8.4 GHz)
An experimental radio frequency link has been demonstrated to provide two-way communication between ...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
none5Precise microwave tracking of interplanetary spacecraft has been a crucial tool in solar system...
The Ka-Band Link Experiment was the first demonstration of a deep-space communications link in the 3...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
The first quarter century of U.S. solar system exploration using unmanned spacecraft has involved pr...
The Ka-band study team was chartered in late 1987 to bring together all the planning elements for es...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
The benefits of using 32 GHz downlinks for a set of deep space missions, as well as the implications...
Future space applications are likely to rely heavily on Ka-band frequencies (20-40 GHz) for communic...
The results of an X/X/Ka-band feed design concept demonstration are presented. The purpose is to sho...
As the S-band spectrum becomes crowded, future space missions will need to consider moving command a...
Deep space (DS) exploration is aimed at acquiring information about the solar system and its composi...
A road map for the development of a protoflight 32 GHz spacecraft solid state transmitter is given. ...
In the Space Exploration Initiative, Ka-band frequencies are likely to carry the bulk of the communi...
An experimental radio frequency link has been demonstrated to provide two-way communication between ...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
none5Precise microwave tracking of interplanetary spacecraft has been a crucial tool in solar system...
The Ka-Band Link Experiment was the first demonstration of a deep-space communications link in the 3...
The X-band (8.41 GHz) frequency currently used for deep space telecommunications is too narrow (50 M...
The first quarter century of U.S. solar system exploration using unmanned spacecraft has involved pr...
The Ka-band study team was chartered in late 1987 to bring together all the planning elements for es...
Over the past decade, the Jet Propulsion Laboratory’s Telecommunications and Mission Operations Dire...
The benefits of using 32 GHz downlinks for a set of deep space missions, as well as the implications...
Future space applications are likely to rely heavily on Ka-band frequencies (20-40 GHz) for communic...
The results of an X/X/Ka-band feed design concept demonstration are presented. The purpose is to sho...
As the S-band spectrum becomes crowded, future space missions will need to consider moving command a...
Deep space (DS) exploration is aimed at acquiring information about the solar system and its composi...
A road map for the development of a protoflight 32 GHz spacecraft solid state transmitter is given. ...
In the Space Exploration Initiative, Ka-band frequencies are likely to carry the bulk of the communi...
An experimental radio frequency link has been demonstrated to provide two-way communication between ...
Deep space (DS) missions for interplanetary explorations are aimed at acquiring information about th...
none5Precise microwave tracking of interplanetary spacecraft has been a crucial tool in solar system...