Add to ORKGThis paper presents a simple gravity evaluation model for large reflector antennas and the experimental example for a case study of one uplink array of 4x35-m antennas at X and Ka band. This model can be used to evaluate the gain reduction as a function of the maximum gravity distortion, and also to specify this at system designer level. The case study consists of one array of 35-m antennas for deep space missions. Main issues due to the gravity effect have been explored with Monte Carlo based simulation analysis
Future satellite communication and scientific spacecraft will utilize antennas with dimensions as la...
Parabolic reflector properties and gravity gradient effects analyzed for large orbiting radio telesc...
In this report we compare the cost of an array of small antennas to that of a single large antenna a...
Antennas in the range of 20 meters or larger will be an integral part of future satellite communicat...
Statistical analysis of surface distortions of the 70 meter NASA/JPL antenna, located at Goldstone, ...
This article documents the computational methods and theoretical results for the deformable °at plat...
Technologies exist for construction of antennas with adaptive surfaces that can compensate for many ...
A malfunction of the Deep Space Network (DSN) 64-meter antenna in Australia forced the antenna to op...
A comparative analysis was performed, using both the Geometrical Theory of Diffraction (GTD) and tra...
We develop a model for a large array ground receiver system for use in deep-space communications, an...
Several analytical studies of topics relevant to the design of large space structures are presented....
Effect of frequency on communications capability, single antennas and arrays, and economic balance b...
Development of very large arrays of small antennas has been proposed as a way to increase the downli...
Various space concepts were discussed during the past 20 years for a global improvement of the knowl...
Within the past several years, the Jet Propulsion Laboratory has designed and built major ground ant...
Future satellite communication and scientific spacecraft will utilize antennas with dimensions as la...
Parabolic reflector properties and gravity gradient effects analyzed for large orbiting radio telesc...
In this report we compare the cost of an array of small antennas to that of a single large antenna a...
Antennas in the range of 20 meters or larger will be an integral part of future satellite communicat...
Statistical analysis of surface distortions of the 70 meter NASA/JPL antenna, located at Goldstone, ...
This article documents the computational methods and theoretical results for the deformable °at plat...
Technologies exist for construction of antennas with adaptive surfaces that can compensate for many ...
A malfunction of the Deep Space Network (DSN) 64-meter antenna in Australia forced the antenna to op...
A comparative analysis was performed, using both the Geometrical Theory of Diffraction (GTD) and tra...
We develop a model for a large array ground receiver system for use in deep-space communications, an...
Several analytical studies of topics relevant to the design of large space structures are presented....
Effect of frequency on communications capability, single antennas and arrays, and economic balance b...
Development of very large arrays of small antennas has been proposed as a way to increase the downli...
Various space concepts were discussed during the past 20 years for a global improvement of the knowl...
Within the past several years, the Jet Propulsion Laboratory has designed and built major ground ant...
Future satellite communication and scientific spacecraft will utilize antennas with dimensions as la...
Parabolic reflector properties and gravity gradient effects analyzed for large orbiting radio telesc...
In this report we compare the cost of an array of small antennas to that of a single large antenna a...