[미국특허]
Multi-band satellite communication fade mitigation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-017/02
출원번호
US-0814270
(2010-06-11)
등록번호
US-8385817
(2013-02-26)
발명자
/ 주소
Dankberg, Mark D.
Hunter, Daryl T.
Pateros, Charles N.
출원인 / 주소
ViaSat, Inc.
인용정보
피인용 횟수 :
14인용 특허 :
1
초록▼
One or more satellites may generate multiple beams. The beams may facilitate communication over multiple communication frequency bands including a relatively high capacity frequency band and a relatively fade-resilient frequency band. The beams may overlap. User terminals and/or gateways in a beam i
One or more satellites may generate multiple beams. The beams may facilitate communication over multiple communication frequency bands including a relatively high capacity frequency band and a relatively fade-resilient frequency band. The beams may overlap. User terminals and/or gateways in a beam intersection may select from among the multiple communication frequency bands to communication with the satellite(s). Responsive to detection of rain fade, some of the user terminals and/or gateways may be instructed to use the relatively fade-resilient frequency band. The multiple communication frequency bands may be assigned to the user terminals and/or gateways so as to maximize total system capacity.
대표청구항▼
1. A system for multi-band satellite communication fade mitigation, comprising a fade mitigation component configured to, at least: detect rain fade in communication connections between at least one satellite and a set of satellite communication user terminals located in at least one intersection of
1. A system for multi-band satellite communication fade mitigation, comprising a fade mitigation component configured to, at least: detect rain fade in communication connections between at least one satellite and a set of satellite communication user terminals located in at least one intersection of a plurality of beams of said at least one satellite, the plurality of beams corresponding to a plurality of communication frequency bands including a relatively fade-resilient frequency band;select a fading subset of the satellite communication user terminals based at least in part on the rain fade in the communication connections; andsend a first set of instructions to the fading subset of the satellite communication user terminals to communicate with said at least one satellite over the relatively fade-resilient frequency band. 2. A system according to the system of claim 1, wherein the set of satellite communication user terminals are assigned to the plurality of communication frequency bands such that total communication capacity is maximized. 3. A system according to the system of claim 2, wherein: the plurality of communication frequency bands further includes a relatively high capacity frequency band having a variable communication capacity based at least in part on rain fade intensity; andmaximizing total communication capacity comprises determining a communication capacity of at least one of the set of satellite communication user terminals assigned to the relatively high capacity frequency band. 4. A system according to the system of claim 1, wherein the plurality of communication frequency bands further includes a relatively high capacity frequency band; andthe fade mitigation component is further configured to, at least: select a swap-out subset of the satellite communication user terminals based at least in part on the fading subset; andsend a second set of instructions to the swap-out subset of the satellite communication user terminals to communicate with said at least one satellite over the relatively high capacity frequency band. 5. A system according to the system of claim 4, wherein selecting the swap-out subset comprises selecting the swap-out subset so as to make available communication capacity associated with the relatively fade-resilient frequency band. 6. A system according to the system of claim 1, wherein detecting rain fade in communication connections comprises obtaining at least one value corresponding to rain fade in each of the communication connections. 7. A system according to the system of claim 6, wherein said at least one value corresponding to rain fade comprises at least one value corresponding to communications throughput between said at least one satellite and at least one of the set of satellite communication user terminals. 8. A system according to the system of claim 1, wherein the plurality of communication frequency bands further includes a relatively high capacity frequency band;the plurality of beams comprises a plurality of spot beams corresponding to the relatively high capacity frequency band and a beam corresponding to the relatively fade-resilient frequency band; andthe beam corresponding to the relatively fade-resilient frequency band has a coverage area that substantially contains a collective coverage area of the plurality of spot beams corresponding to the relatively high capacity frequency band. 9. A system according to the system of claim 1, wherein the fading subset of the satellite communication user terminals comprises at least some of the satellite communication user terminals most affected by rain fade. 10. A system according to the system of claim 1, wherein the fading subset of the satellite communication user terminals comprises at least some of the satellite communication user terminals most likely to be affected by rain fade. 11. A system according to the system of claim 1, wherein the fade mitigation component is incorporated into a satellite communications gateway. 12. A system according to the system of claim 1, wherein the fade mitigation component is incorporated into a satellite. 13. A system according to the system of claim 1, wherein the fade mitigation component is incorporated into a satellite communication user terminal. 14. A system for multi-band satellite communication fade mitigation, comprising: a plurality of types of satellite communication user terminal located in at least one intersection of a plurality of beams of at least one satellite, wherein the plurality of beams correspond to a plurality of communication frequency bands including a relatively fade-resilient frequency band, wherein at least one satellite communication user terminal of at least one of the plurality of types of satellite communication user terminal is configured at least to communicate with said at least one satellite over the plurality of communication frequency bands, and wherein utilization of the plurality of communication frequency bands is based at least in part on at least one value corresponding to rain fade in communication between said at least one satellite communication user terminal and said at least one satellite. 15. A system according to the system of claim 14, wherein communicating with said at least one satellite over the plurality of communication frequency bands comprises communicating with said at least one satellite on a schedule based at least in part on said at least one value corresponding to rain fade. 16. A system according to the system of claim 14, wherein the plurality of types of satellite communication user terminal comprises at least one type of satellite communication user terminal configured at least to communicate with said at least one satellite over less than all of the plurality of communication frequency bands. 17. A system according to the system of claim 14, wherein the plurality of beams collectively cover a geographical area sufficiently large that, at times, rain fade intensity varies significantly throughout the geographical area. 18. A system according to the system of claim 14, wherein coverage areas of the plurality of beams are selected based at least in part on historical rain fade data. 19. A satellite capable of participating in multi-band satellite communication fade mitigation, the satellite configured to, at least: obtain at least one value corresponding to rain fade in communication between the satellite and a set of satellite communication user terminals located in an intersection of a plurality of beams of a set of satellites including the satellite, the plurality of beams corresponding to a plurality of communication frequency bands including a relatively fade-resilient frequency band; andinstruct a fading subset of the satellite communication user terminals to communicate with at least one of the set of satellites over the relatively fade-resilient frequency band, the fading subset of the satellite communication user terminals selected based at least in part on said at least one value corresponding to rain fade. 20. A satellite according to the satellite of claim 19, wherein: the plurality of communication frequency bands further includes a relatively high capacity frequency band; andthe satellite is further configured at least to instruct a swap-out subset of the satellite communication user terminals to communicate with at least one of the set of satellites over the relatively high capacity frequency band, the swap-out subset of the satellite communication user terminals selected based at least in part on the fading subset. 21. A satellite according to the satellite of claim 19, wherein the set of satellites comprises a plurality of satellites. 22. A satellite according to the satellite of claim 21, wherein each of the plurality of satellites corresponds to one of the plurality of communication frequency bands.
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이 특허에 인용된 특허 (1)
Brooker, Ralph L., Method and system for compensating for atmospheric fading in a communications system.
Buer, Kenneth V.; Miller, Mark J.; Cronin, Christopher J.; Dankberg, Mark D.; Runyon, Donald L., Ground network with access node clusters for end-to-end beamforming.
Beeler, Michael; Baddick, John; Davis, Wallace, Method and system for performing multi-layer, multi-dimensional link budget analysis (LBA) using real-time network, weather, satellite ephemeras and ionospheric information.
Buer, Kenneth V.; Miller, Mark J.; Cronin, Christopher J.; Dankberg, Mark D.; Runyon, Donald L., Satellite for end-to-end beamforming with access node clusters.
Buer, Kenneth V.; Miller, Mark J.; Cronin, Christopher J.; Dankberg, Mark D.; Runyon, Donald L., System for end-to-end beamforming with multi-frequency access nodes.
Buer, Kenneth V.; Miller, Mark J.; Cronin, Christopher J.; Dankberg, Mark D; Runyon, Donald L., System for end-to-end beamforming with multi-frequency access nodes.
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