Add to ORKGThe outline of a design of a system using ultra small earth stations (picoterminals) for data traffic at 20/30 GHz is discussed. The picoterminals would be battery powered, have an RF transmitter power of 0.5 W, use a 10 cm square patch antenna, and have a receiver G/T of about -8 dB/K. Spread spectrum modulation would be required (due to interference consideration) to allow a telex type data link (less than 200 bit/s data rate) from the picoterminal to the hub station of the network and about 40 kbit/s on the outbound patch. An Olympus type transponder at 20/30 GHz could maintain several thousand simultaneous picoterminal circuits. The possibility of demonstrating a picoterminal network with voice traffic using Olympus is discussed togethe...
The World Administrative Radio Conference (WARC) held in 1992 allocated the bands 19.7-20.2 GHz and ...
This research activity develops in the rapidly and constantly growing field of avionics for small sa...
Within the first decade of the 21st century, the aerospace community has seen many more opportunitie...
Future communication systems will move toward the 20 to 30 GHz frequency range for wider bandwidth a...
The characteristics of 30/20 GHz usage in satellite systems to be used in support of projected commu...
Satellite systems in which the space segment operates in the 30/20 GHz frequency band are defined an...
A review of the future options open to satellite system planners focuses attention on the use of the...
Rain attenuation in the 20/30 GHz bands, and the resultant impact on system user costs were estimate...
The spectacular growth of cellular telephone networks has proved the demand for personal communicati...
A comprehensive traffic demand forecast and a scenario for the transition process from current satel...
The pan-European L-band terrestrial cellular system (GSM) is expected to provide service to more tha...
A frequency division multiple access (FDMA) 30/20 GHz satellite communications architecture without ...
This research activity develops in the rapidly and constantly growing field of avionics for small sa...
Virginia Tech is performing a comprehensive set of propagation measurements using the Olympus satell...
An examination of a multiplicity of interconnected parameters ranging from specific technology detai...
The World Administrative Radio Conference (WARC) held in 1992 allocated the bands 19.7-20.2 GHz and ...
This research activity develops in the rapidly and constantly growing field of avionics for small sa...
Within the first decade of the 21st century, the aerospace community has seen many more opportunitie...
Future communication systems will move toward the 20 to 30 GHz frequency range for wider bandwidth a...
The characteristics of 30/20 GHz usage in satellite systems to be used in support of projected commu...
Satellite systems in which the space segment operates in the 30/20 GHz frequency band are defined an...
A review of the future options open to satellite system planners focuses attention on the use of the...
Rain attenuation in the 20/30 GHz bands, and the resultant impact on system user costs were estimate...
The spectacular growth of cellular telephone networks has proved the demand for personal communicati...
A comprehensive traffic demand forecast and a scenario for the transition process from current satel...
The pan-European L-band terrestrial cellular system (GSM) is expected to provide service to more tha...
A frequency division multiple access (FDMA) 30/20 GHz satellite communications architecture without ...
This research activity develops in the rapidly and constantly growing field of avionics for small sa...
Virginia Tech is performing a comprehensive set of propagation measurements using the Olympus satell...
An examination of a multiplicity of interconnected parameters ranging from specific technology detai...
The World Administrative Radio Conference (WARC) held in 1992 allocated the bands 19.7-20.2 GHz and ...
This research activity develops in the rapidly and constantly growing field of avionics for small sa...
Within the first decade of the 21st century, the aerospace community has seen many more opportunitie...