Capacity maximization for a unicast spot beam satellite system

US 8,010,043 B2
Filed: 07/21/2008
Issued: 08/30/2011
Est. Priority Date: 07/20/2007
Status: Active Grant

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First Claim

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1. A satellite for illuminating a geographic area with signals, the satellite comprising:

a power source;

an antenna;

a plurality of spot beams emanating from the antenna to service a plurality of service links, wherein;

the plurality of spot beams includes a first spot beam and a second spot beam,the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N, andthe satellite is operated to maximize data-carrying capacity of the plurality of spot beams as measured in bits/Hz, by utilizing a beam pattern having a specific number of color(s) of frequency and polarization and specific beam spacing that results in higher data-carrying capacity of the plurality of spot beams than achieved with other alternative numbers of color(s) of frequency and polarization and beam spacings.

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Abstract

Methods, systems, and apparatuses are presented for improved satellite communications. The satellite system may comprises at least one gateway, a satellite in orbit configured to communicate with the at least one gateway and provide a plurality of spot beams, and a plurality of subscriber terminals. The spot beams may include a first spot beam to illuminate a first region and a second spot beam to illuminate a second region adjacent to and overlapping with the first region. The first spot beam as sent to at least one subscriber terminal may be affected by (1) interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I and (2) noise at a signal-to-noise ratio C/N. Reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals may be interference-dominated such that C/I is less than C/N.

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24 Claims

1. A satellite for illuminating a geographic area with signals, the satellite comprising:
- a power source;
  
  an antenna;
  
  a plurality of spot beams emanating from the antenna to service a plurality of service links, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam,the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N, andthe satellite is operated to maximize data-carrying capacity of the plurality of spot beams as measured in bits/Hz, by utilizing a beam pattern having a specific number of color(s) of frequency and polarization and specific beam spacing that results in higher data-carrying capacity of the plurality of spot beams than achieved with other alternative numbers of color(s) of frequency and polarization and beam spacings.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The satellite for illuminating a geographic area with signals of claim 1, wherein the plurality of spot beams does not comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing minimum data-carrying capacity within the plurality of spot beams.
  - 3. The satellite for illuminating a geographic area with signals of claim 1, wherein the plurality of spot beams comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing average data-carrying capacity within the plurality of spot beams.
  - 4. The satellite for illuminating a geographic area with signals of claim 1, wherein the beam pattern has a single color of frequency and polarization.
  - 5. The satellite for illuminating a geographic area with signals of claim 1, wherein the beam pattern has a beam spacing characterized by a cross-over point of less than −
    - 6 dB.
  - 6. The satellite for illuminating a geographic area with signals of claim 1, wherein the beam pattern has a regular frequency re-use pattern.

7. A satellite for illuminating a geographic area with signals, the satellite comprising:
- a power source;
  
  an antenna;
  
  a plurality of spot beams emanating from the antenna to service a plurality of service links, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam,the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N,the first spot beam including at least a first portion sent to a first subscriber terminal from the first plurality of subscriber terminals utilizing a first coding and modulation combination, andthe first spot beam including a second portion sent to a second subscriber terminal in the first plurality of subscriber terminals utilizing a second coding and modulation combination, the first coding and modulation combination being different from the second coding and modulation combination.
- View Dependent Claims (8)
- - 8. The satellite for illuminating a geographic area with signals of claim 7, wherein the first coding and modulation combination and second coding and modulation combination are selected according to an adaptive coding and modulation (ACM) scheme.

9. A satellite communications system for illuminating a geographic area with signals, the system comprising:
- at least one gateway;
  
  a satellite in orbit configured to communicate with the at least one gateway and provide a plurality of spot beams to illuminate a plurality of regions in the geographic area;
  
  a plurality of subscriber terminals located in the plurality of regions, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam,the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N, andthe satellite is operated to maximize data-carrying capacity of the plurality of spot beams as measured in bits/Hz, by utilizing a beam pattern having a specific number of color(s) of frequency and polarization and specific beam spacing that results in higher data-carrying capacity of the plurality of spot beams than achieved with other alternative numbers of color(s) of frequency and polarization and beam spacings.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The satellite communications system of claim 9, wherein the plurality of spot beams does not comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing minimum data-carrying capacity within the plurality of spot beams.
  - 11. The satellite communications system of claim 9, wherein the plurality of spot beams comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing average data-carrying capacity within the plurality of spot beams.
  - 12. The satellite communications system of claim 9, wherein the beam pattern has a single color of frequency and polarization.
  - 13. The satellite communications system of claim 9, wherein the beam pattern has a beam spacing characterized by a cross-over point of less than −
    - 6 dB.
  - 14. The satellite communications system of claim 9, wherein the beam pattern has a regular frequency re-use pattern.

15. A satellite communications system for illuminating a geographic area with signals, the system comprising:
- at least one gateway;
  
  a satellite in orbit configured to communicate with the at least one gateway and provide a plurality of spot beams to illuminate a plurality of regions;
  
  a plurality of subscriber terminals located in the plurality of regions, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam,the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N,the first spot beam including at least a first portion sent to a first subscriber terminal from the first plurality of subscriber terminals utilizing a first coding and modulation combination, andthe first spot beam including a second portion sent to a second subscriber terminal in the first plurality of subscriber terminals utilizing a second coding and modulation combination, the first coding and modulation combination being different from the second coding and modulation combination.
- View Dependent Claims (16)
- - 16. The satellite communications system of claim 15, wherein the first coding and modulation combination and second coding and modulation combination are selected according to an adaptive coding and modulation (ACM) scheme.

17. A method for operating a satellite communications system to illuminate a geographic area with signals, the method comprising:
- sending a plurality of spot beams from a satellite to service a plurality of service links, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam, the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N; and
  
  maximizing the data-carrying capacity of the plurality of spot beams as measured in bits/Hz, by utilizing a beam pattern having a specific number of color(s) of frequency and polarization and specific beam spacing that results in higher data-carrying capacity of the plurality of spot beams than achieved with other alternative numbers of color(s) of frequency and polarization and beam spacings.
- View Dependent Claims (18, 19, 20, 21, 22)
- - 18. The method of claim 17, wherein the plurality of spot beams does not comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing minimum data-carrying capacity within the plurality of spot beams.
  - 19. The method of claim 17, wherein the plurality of spot beams comprise adaptive coding and modulation (ACM) signals, and the data-carrying capacity of the plurality of spot beams is maximized by maximizing average data-carrying capacity within the plurality of spot beams.
  - 20. The method of claim 17, wherein the beam pattern has a single color of frequency and polarization.
  - 21. The method of claim 17, wherein the beam pattern has a beam spacing characterized by a cross-over point of less than −
    - 6 dB.
  - 22. The method of claim 17, wherein the beam pattern has a regular frequency re-use pattern.

23. A method for operating a satellite communications system to illuminate a geographic area with signals, the method comprising:
- sending a plurality of spot beams from a satellite to service a plurality of service links, wherein;
  
  the plurality of spot beams includes a first spot beam and a second spot beam, the first spot beam illuminates a first region within the geographic area, in order to send information to a first plurality of subscriber terminals,the second spot beam illuminates a second region within the geographic area and adjacent to the first region, in order to send information to a second plurality of subscriber terminals, whereby the first and second regions overlap,the first spot beam as sent to at least one of the first plurality of subscriber terminals is affected by interference from other signal sources including the second spot beam at a signal-to-interference ratio C/I,the first spot beam as sent to the at least one of the first plurality of subscriber terminals is further affected by noise at a signal-to-noise ratio C/N, whereby reception of signals from the first spot beam by the at least one of the first plurality of subscriber terminals is interference-dominated such that C/I is less than C/N; and
  
  the first spot beam including at least a first portion sent to a first subscriber terminal from the first plurality of subscriber terminals utilizing a first coding and modulation combination, andthe first spot beam including a second portion sent to a second subscriber terminal in the first plurality of subscriber terminals utilizing a second coding and modulation combination, the first coding and modulation combination being different from the second coding and modulation combination.
- View Dependent Claims (24)
- - 24. The method of claim 23, wherein the first coding and modulation combination and second coding and modulation combination are selected according to an adaptive coding and modulation (ACM) scheme.

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Litigation Data

Current Assignee
ViaSat Incorporated
Original Assignee
ViaSat Incorporated
Inventors
Miller, Mark J.
Primary Examiner(s)
Trinh; Tan

Application Number

US12/176,629
Publication Number

US 20090023384A1
Time in Patent Office

1,135 Days
Field of Search

455/12.1, 455/13.2, 455/13.4, 455/69, 455/426.1, 455/426.2, 455/427, 455/428, 455/429, 455/430, 455/435.3, 455/3.01, 455/3.02, 455/447, 455/522, 455/67.16, 455/135, 455/134, 370/316, 370/317, 370/333, 725/70, 725/63, 725/127
US Class Current

455/12.1
CPC Class Codes

H04B 7/18513 Transmission in a satellite...

H04B 7/2041 Spot beam multiple access

Capacity maximization for a unicast spot beam satellite system

First Claim

5 Assignments

Litigations

1 Petition

Accused Products

Abstract

Citations

24 Claims

Specification

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Capacity maximization for a unicast spot beam satellite system

First Claim

5 Assignments

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Litigations

1 Petition

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Accused Products

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Abstract

Citations

24 Claims

Specification

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Solutions

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