At present levels of satellite population (17 or 25) of the random military communications satellite system, the imposition of a priority system on one competing communications link by another reduces the effective satellite population by three to four satellites for the second priority communications link. The present fair communications link availability for multiple hopping from the farside of the earth with the present satellite population and ground terminals can be improved by an alternate route running in the other direction around the earth. (Author)
Priority Conflicts and Multiple Hopping in Random Satellite Coverage
1968
21 pages
Report
Keine Angabe
Englisch
Manned Spacecraft , Common Carrier & Satellite , Communication satellites(Active) , Military requirements , Satellite networks , Communication and radio systems , Equatorial orbits , Abundance , Probability , Mathematical models , Radio stations , United states , Hawaii , Pacific ocean islands , Japan , Philippines , Vietnam , Africa , West germany , Costs , Communication links , Stations , Priority
Frequency-Hopping Signal Detection Using Partial Band Coverage
Online Contents | 1993
|Geolocation of Frequency-Hopping Transmitters via Satellite
Online Contents | 1993
|