Satellite communication service with non-congruent sub-beam coverage

US 6,101,385 A
Filed: 10/09/1997
Issued: 08/08/2000
Est. Priority Date: 10/09/1997
Status: Expired due to Term

First Claim

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1. A satellite communications system of a type having at least one satellite that projects forward and reverse beams that move across the surface of the earth, each of said beams being comprised of sub-beams for relaying user communications between a ground station and user terminals, said system further comprising a data processor for determining user terminal RF signal conditions within said sub-beams of at least one of said forward and reverse beams, said data processor being responsive to said determined RF signal conditions for re-allocating sub-beams of at least one of said forward and reverse beams such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.

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Abstract

A method for use in a satellite communications system (20) of a type that has at least one satellite (22) having forward and reverse beams each comprised of sub-beams for relaying user communications between a ground station (24) and user terminals (30). In a first embodiment forward and reverse antenna systems are separately optimized for their intended applications without regard for maintaining congruence between antenna beam sub-beams at the surface of the earth. In a second embodiment a method optimizes signal flow between the ground station and the user terminals and includes the steps of: (a) determining user terminal RF signal conditions within the sub-beams of at least one of the forward and reverse beams; and (b) in response to the determined RF signal conditions, re-allocating sub-beams of at least one of the forward and reverse beams such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth. The step of determining includes a step of maintaining a database that stores a map of the sub-beams. In one embodiment of this invention the steps of determining and maintaining are executed at the ground station, while in another embodiment the steps of determining and maintaining are executed on-board the satellite.

320 Citations

20 Claims

1. A satellite communications system of a type having at least one satellite that projects forward and reverse beams that move across the surface of the earth, each of said beams being comprised of sub-beams for relaying user communications between a ground station and user terminals, said system further comprising a data processor for determining user terminal RF signal conditions within said sub-beams of at least one of said forward and reverse beams, said data processor being responsive to said determined RF signal conditions for re-allocating sub-beams of at least one of said forward and reverse beams such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.
- View Dependent Claims (2, 3, 4)
- - 2. A satellite communications system as set forth in claim 1, wherein said data processor is bidirectionally coupled to a database that stores a map of said sub-beams.
  - 3. A satellite communications system as set forth in claim 2, wherein said data processor and said database are co-located with said ground station.
  - 4. A satellite communications system as set forth in claim 2, wherein said data processor and said database are located on-board said at least one satellite.

5. In a satellite communications system of a type having at least one satellite having forward and reverse beams each comprised of sub-beams for relaying user communications between a ground station and user terminals, a method for optimizing signal flow between the ground station and the user terminals comprising the steps of:
- determining user terminal RF signal conditions within the sub-beams of at least one of the forward and reverse beams; and
  
  in response to the determined RF signal conditions, re-allocating sub-beams of at least one of the forward and reverse beams such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.
- View Dependent Claims (6, 7, 8)
- - 6. A method as set forth in claim 5, wherein the step of determining includes a step of maintaining a database that stores a map of the sub-beams.
  - 7. A method as set forth in claim 6, wherein the steps of determining and maintaining are executed at the ground station.
  - 8. A method as set forth in claim 6, wherein the steps of determining and maintaining are executed on-board the at least one satellite.

9. A satellite communications system of a type having a plurality of satellites each having forward and reverse beams that move across the surface of the earth, each forward and reverse beam being comprised of sub-beams for relaying user communications between a ground station and user terminals located within the beams, said system further comprising a data processor for determining, for each of the plurality of satellites, user terminal RF signal conditions within said sub-beams of at least one of said forward and reverse beams, said data processor being responsive to said determined RF signal conditions for re-allocating sub-beams of at least one of said forward and reverse beams, for each of said plurality of satellites, such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.
- View Dependent Claims (10, 11, 12)
- - 10. A satellite communications system as set forth in claim 9, wherein said data processor is bidirectionally coupled to a database that stores a map of said sub-beams.
  - 11. A satellite communications system as set forth in claim 10, wherein said data processor and said database are co-located with said ground station.
  - 12. A satellite communications system as set forth in claim 10, wherein said data processor and said database are located on-board said at least one satellite.

13. A satellite communications system of a type having at least one satellite having forward and reverse service beams that form a beam pattern at the surface of the earth, each of said forward and reverse service beams operating in respective and different frequency bands and being associated with a forward antenna system and a reverse antenna system, respectively, on-board said satellite, wherein said antenna systems are separately optimized for their intended applications without regard for maintaining congruence between antenna beam sub-beams at the surface of the earth, and where at least one of said antenna systems is operated to reallocate sub-beams in accordance with at least one of real-time or predicted variations in communications traffic loading or RF propagation conditions, said antenna system being operated such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. A satellite communications system as set forth in claim 13, wherein said forward and reverse antenna systems each comprise a phased array, wherein said phased array of said reverse antenna system uses both amplitude taper and phase control, and wherein said phased array of said forward antenna system uses phase control and not amplitude taper.
  - 15. A satellite communication system as set forth in claim 13, and further comprising a data processor for determining user terminal RF signal conditions within said sub-beams of at least one of said forward and reverse service beams, said data processor being responsive to said determined RF signal conditions for re-allocating sub-beams of at least one of said forward and reverse beams such that the totality of the sub-beams of the forward beam are non-congruent with the totality of the sub-beams of the reverse beam, at the surface of the earth, while maintaining the forward beam substantially congruent with the reverse beam, at the surface of the earth.
  - 16. A satellite communications system as set forth in claim 15, wherein said data processor is bidirectionally coupled to a database that stores a map of said sub-beams.
  - 17. A satellite communications system as set forth in claim 16, wherein said data processor and said database are co-located with said ground station.
  - 18. A satellite communications system as set forth in claim 16, wherein said data processor and said database are located on-board said at least one satellite.
  - 19. A satellite communication system as set forth in claim 13, and further comprising a data processor for re-allocating sub-beams of at least one of said forward and reverse beams based on at least one of a predetermined plan or a dynamically varying plan.
  - 20. A satellite communication system as set forth in claim 13, wherein said predicted variations are derived from a database that stores information reflecting past usage of said satellite communications system.

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Current Assignee
Globalstar Incorporated
Original Assignee
Globalstar Incorporated
Inventors
Monte, Paul A, Hirshfield, Edward
Primary Examiner(s)
Trost, William G.
Assistant Examiner(s)
GELIN, JEAN ALLAND

Application Number

US08/947,931
Time in Patent Office

1,034 Days
Field of Search

455/11.1, 455/12.1, 455/13.1, 455/13.2, 455/13.3, 455/427, 455/429, 455/430, 455/33.1, 455/422, 455/450, 455/452, 455/454, 370/310, 370/315, 370/316, 370/319, 370/347, 370/348, 370/320-337
US Class Current

455/427
CPC Class Codes

H04B 7/18539 Arrangements for managing r...

H04B 7/2041 Spot beam multiple access

Satellite communication service with non-congruent sub-beam coverage

First Claim

8 Assignments

0 Petitions

Accused Products

Abstract

320 Citations

20 Claims

Specification

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Satellite communication service with non-congruent sub-beam coverage

First Claim

8 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

320 Citations

20 Claims

Specification

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Use Cases

Quick Links

Others