Satellite communications system employing frequency reuse
First Claim
1. A method of interconnecting any of a plurality of terminals within a geographic area on the earth for two-way communication using a single earth orbiting communications satellite, comprising the steps of:
- (A) allocating a set of uplink communication channels spanning a first preselected band of communications frequencies for use in each of a plurality of uplink zones within said area wherein said uplink zones are arranged seriatim and in contiguous relationship along an axis extending across said area in a manner to cover the entire said area, such that the same uplink communications channels are used by all of said uplink zones;
(B) transmitting from each of said uplink zones to said satellite a radio frequency uplink beam of electromagnetic radiation, the uplink beam from each of said uplink zones carrying a plurality of communication signals over said uplink communications channels;
(C) receiving said uplink beams at said satellite;
(D) allocating a set of downlink communication channels spanning a second preselected band of frequencies for use in each of a plurality of downlink zones within said area wherein said downlink zones are respectively essentially coextensive with said uplink zones, such that the same downlink channels are used by all of said downlink zones;
(E) associated the downlink channels in each of said downlink zones respectively with a plurality of geographic sections within the associated downlink zone, said geographic sections being arranged seriatim along said axis across the associated downlink zone such that each of sections is serviced by a respectively associated one of said downlink channels;
(F) transmitting from said satellite to each of said downlink zones a plurality of radio frequency downlink beams of electromagnetic radiation, said downlink beams carrying a plurality of communications signals originating from terminals in said uplink zones, said downlink beams being transmitted in a manner such that each of said geographic sections receives only those downlink beams having frequencies within the downlink channel associated with a geographic section in step (E).
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Accused Products
Abstract
A satellite communications system employs separate subsystems for providing broadcast and point-to-point two-way communications using the same assigned frequency band. The broadcast and point-to-point subsystems employ an integrated satellite antenna system which uses a common reflector (12). The point-to-point subsystem achieves increased communication capacity through the reuse of the assigned frequency band over multiple, contiguous zones (32, 34, 36, 38) covering the area of the earth to be serviced. Small aperture terminals in the zones are serviced by a plurality of high gain downlink fan beams (29) steered in the east-west direction by frequency address. A special beam-forming network (98) provides in conjunction with an array antenna (20) the multiple zone frequency address function. The satellite (10) employs a filter interconnection matrix (90) for connecting earth terminals in different zones in a manner which permits multiple reuse of the entire band of assigned frequencies. A single pool of solid state transmitters allows rain disadvantaged users to be assigned higher than normal power at minimum cost. The intermodulation products of the transmitters are geographically dispersed.
94 Citations
6 Claims
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1. A method of interconnecting any of a plurality of terminals within a geographic area on the earth for two-way communication using a single earth orbiting communications satellite, comprising the steps of:
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(A) allocating a set of uplink communication channels spanning a first preselected band of communications frequencies for use in each of a plurality of uplink zones within said area wherein said uplink zones are arranged seriatim and in contiguous relationship along an axis extending across said area in a manner to cover the entire said area, such that the same uplink communications channels are used by all of said uplink zones; (B) transmitting from each of said uplink zones to said satellite a radio frequency uplink beam of electromagnetic radiation, the uplink beam from each of said uplink zones carrying a plurality of communication signals over said uplink communications channels; (C) receiving said uplink beams at said satellite; (D) allocating a set of downlink communication channels spanning a second preselected band of frequencies for use in each of a plurality of downlink zones within said area wherein said downlink zones are respectively essentially coextensive with said uplink zones, such that the same downlink channels are used by all of said downlink zones; (E) associated the downlink channels in each of said downlink zones respectively with a plurality of geographic sections within the associated downlink zone, said geographic sections being arranged seriatim along said axis across the associated downlink zone such that each of sections is serviced by a respectively associated one of said downlink channels; (F) transmitting from said satellite to each of said downlink zones a plurality of radio frequency downlink beams of electromagnetic radiation, said downlink beams carrying a plurality of communications signals originating from terminals in said uplink zones, said downlink beams being transmitted in a manner such that each of said geographic sections receives only those downlink beams having frequencies within the downlink channel associated with a geographic section in step (E). - View Dependent Claims (2, 3, 4, 5, 6)
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Specification