Add to ORKGThe Mobile Satellite Experiment (MSAT-X) breadboard antenna design demonstrates the feasibility of using a phased array in a mobile satellite application. An electronically steerable phased array capable of tracking geosynchronous satellites from anywhere in the Continental United States has been developed. The design is reviewed along with the test data. Cost analysis are presented which indicate that this design can be produced at a cost of $1620 per antenna
NASA's Jet Propulsion Laboratory is currently developing the Advanced Communications Technology Sate...
A key element of the future NASA Space Exploration Initiative (SEI) mission is the lunar and Mars te...
The RF performance, size, pointing system, and cost were investigated concepts are: for a mechanical...
A low profile electronically steered phased array was successfully developed for the Mobile Satellit...
An antenna system including antenna elements and a satellite tracking method is considered a key tec...
The Jet Propulsion Laboratory has designed and developed a mechanically steered antenna for tracking...
Future rapid deployment of low- and medium-Earth-orbit satellite constellations that will offer vari...
Spar has evaluated and compared several antenna concepts for the North American Mobile Satellite. Th...
A NASA sponsored program, called the Mobile Satellite (MSAT) system, has prompted the development of...
The design and performance of a family of vehicle antennas developed at JPL in support of an emergin...
In recent years, extensive experience has been built up at the University of Bristol in the use of t...
Several antenna design concepts, operating at UHF (821 to 825 MHz transmit and 866 to 870 MHz receiv...
Phased-array antenna systems offer many advantages to low-Earth-orbiting satellite systems. Their la...
Nowadays achievements on mobile satellite system (MSS) communication give a great concern for resea...
For Mobile MSAT applications a number of vehicular antennas have been developed that meet the progra...
NASA's Jet Propulsion Laboratory is currently developing the Advanced Communications Technology Sate...
A key element of the future NASA Space Exploration Initiative (SEI) mission is the lunar and Mars te...
The RF performance, size, pointing system, and cost were investigated concepts are: for a mechanical...
A low profile electronically steered phased array was successfully developed for the Mobile Satellit...
An antenna system including antenna elements and a satellite tracking method is considered a key tec...
The Jet Propulsion Laboratory has designed and developed a mechanically steered antenna for tracking...
Future rapid deployment of low- and medium-Earth-orbit satellite constellations that will offer vari...
Spar has evaluated and compared several antenna concepts for the North American Mobile Satellite. Th...
A NASA sponsored program, called the Mobile Satellite (MSAT) system, has prompted the development of...
The design and performance of a family of vehicle antennas developed at JPL in support of an emergin...
In recent years, extensive experience has been built up at the University of Bristol in the use of t...
Several antenna design concepts, operating at UHF (821 to 825 MHz transmit and 866 to 870 MHz receiv...
Phased-array antenna systems offer many advantages to low-Earth-orbiting satellite systems. Their la...
Nowadays achievements on mobile satellite system (MSS) communication give a great concern for resea...
For Mobile MSAT applications a number of vehicular antennas have been developed that meet the progra...
NASA's Jet Propulsion Laboratory is currently developing the Advanced Communications Technology Sate...
A key element of the future NASA Space Exploration Initiative (SEI) mission is the lunar and Mars te...
The RF performance, size, pointing system, and cost were investigated concepts are: for a mechanical...
