IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0126799
(2005-05-11)
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등록번호 |
US-8265549
(2012-09-11)
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발명자
/ 주소 |
- Karabinis, Peter D.
- Dutta, Santanu
- Churan, Gary G.
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출원인 / 주소 |
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대리인 / 주소 |
Myers Bigel Sibley & Sajovec, P.A.
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인용정보 |
피인용 횟수 :
3 인용 특허 :
74 |
초록
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A processor for use in a satellite communications system includes a selector that is configured to select a subset of a plurality of spatially diverse satellite signals based upon a location of a radioterminal. The processor further includes a signal processor that is configured to detect a return-l
A processor for use in a satellite communications system includes a selector that is configured to select a subset of a plurality of spatially diverse satellite signals based upon a location of a radioterminal. The processor further includes a signal processor that is configured to detect a return-link transmission from the radioterminal responsive to the selected subset of the spatially diverse satellite signals. The respective spatially diverse satellite signals may include respective signals corresponding to respective antenna elements of a satellite. The selector and the signal processor may be ground based.
대표청구항
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1. A processor for use in a satellite communications system, the processor comprising: a selector that is configured to select a subset of a plurality of signals that are received at a satellite; anda detector that is configured to detect a transmission of a terminal responsive to the selected subse
1. A processor for use in a satellite communications system, the processor comprising: a selector that is configured to select a subset of a plurality of signals that are received at a satellite; anda detector that is configured to detect a transmission of a terminal responsive to the selected subset of the plurality of signals;wherein the selector and the detector are positioned at a distance from the satellite and wherein the subset of the plurality of signals is selected by the selector responsive to a location of the terminal, andwherein the selector is configured to select a first subset of the plurality of signals responsive to a transmission of the terminal, wherein the detector is configured to associate location information with the terminal responsive to the first subset of the plurality of signals, wherein the selector is further configured to select a second subset of the plurality of signals responsive to the location information, and wherein the detector is further configured to detect a subsequent transmission of the terminal responsive to the second subset of the plurality of signals. 2. A processor according to claim 1, wherein the plurality of signals corresponds to a respective plurality of antenna elements of a service link antenna of the satellite. 3. A processor according to claim 1, wherein the selector and/or the detector is/are located at a gateway of the satellite. 4. A processor according to claim 1, wherein the selector is further configured to select the subset of the plurality of signals responsive to an association of the terminal with an antenna pattern of the satellite and/or a received signal strength due to a transmission of the terminal. 5. A processor according to claim 1, wherein the detector is operative to process a plurality of diverse signal sets that are included in the selected subset of the plurality of signals, and to detect the transmission of the terminal from processing of at least one of the plurality of diverse signal sets. 6. A processor according to claim 5, wherein the detector comprises a signal processor configured to detect the transmission of the terminal by adaptively processing at least one of the plurality of diverse signal sets; wherein adaptively processing comprises processing in accordance with a minimum mean-squared error performance index. 7. A satellite communications system comprising: a satellite configured to receive a plurality of spatially diverse signals from a radioterminal; anda processor configured to select a subset of the plurality of spatially diverse signals and to detect a transmission of the radioterminal responsive to the selected subset of the plurality of spatially diverse signals;wherein the processor is positioned at a distance from the satellite, the plurality of spatially diverse signals are received at the satellite via a respective plurality of antenna elements of the satellite and wherein the processor is configured to select the subset of the plurality of spatially diverse signals based upon a location of the radioterminal, andwherein the processor is configured to select a first subset of the plurality of spatially diverse signals responsive to a transmission of the radioterminal, to detect location information associated with the radioterminal responsive to the first subset of the plurality of spatially diverse signals, to select a second subset of the plurality of spatially diverse signals responsive to the detected location information, and to detect a subsequent transmission of the radioterminal responsive to the second subset of the plurality of spatially diverse signals. 8. A system according to claim 7, wherein the processor is configured to select the subset of the plurality of spatially diverse signals based upon an association of the radioterminal with an antenna pattern of the satellite over which a signal that is transmitted by the radioterminal is received at a maximum or near maximum strength. 9. A system according to claim 7, wherein the processor is configured to detect the transmission of the radioterminal by adaptively processing at least one signal of the plurality of spatially diverse signals; wherein adaptively processing comprises processing in accordance with a minimum mean-squared error performance index. 10. A system according to claim 7, wherein the processor is positioned at a gateway of the satellite. 11. A system according to claim 10, wherein the satellite comprises a processor configured to receive first signals from the plurality of antenna elements of the satellite and to responsively generate a feeder link signal including second signals, wherein the second signals correspond to selected frequency components of the first signals. 12. A system according to claim 7, wherein the processor is configured to further select the subset of the plurality of spatially diverse signals responsive to an association of the radioterminal with an antenna pattern of the satellite and/or a received signal strength due to a transmission of the radioterminal. 13. A system according to claim 7, wherein the processor is configured to process a plurality of signal sets and to detect the transmission of the radioterminal by processing at least one signal set of the plurality of signal sets; wherein the plurality of signal sets is derived from the selected subset of the plurality of spatially diverse signals. 14. A system according to claim 13, wherein the processor comprises: a selector configured to select the subset of the plurality of spatially diverse signals;a channelization and frequency translation unit configured to generate the plurality of signal sets from the selected subset of the plurality of spatially diverse signals; anda detector configured to detect the transmission of the radioterminal by adaptively processing at least one signal set of the plurality of signal sets. 15. A satellite communications system comprising: a satellite-based processor configured on a satellite to receive first spatially diverse signals from a satellite antenna and to responsively generate a feeder link signal, wherein the satellite-based processor discards at least one signal of the first spatially diverse signals and generates the feeder link signal by spectrally distributing second spatially diverse signals corresponding to selected frequency components of the first spatially diverse signals; anda signal processor configured to select a subset of the second spatially diverse signals based upon a location of a radioterminal and to detect a transmission of the radioterminal responsive to the selected subset of the second spatially diverse signals, andwherein the signal processor is configured to select a first subset of the second spatially diverse signals responsive to a transmission of the radioterminal, to associate location information with the radioterminal responsive to the first subset of the second spatially diverse signals, to select a second subset of the second spatially diverse signals responsive to the location information, and to detect a subsequent transmission of the radioterminal responsive to the second subset of the second spatially diverse signals;wherein the signal processor is positioned at a distance from the satellite. 16. A system according to claim 15, further comprising the satellite antenna that generates the first spatially diverse signals. 17. A system according to claim 16, wherein respective ones of the first spatially diverse signals comprise signals corresponding to respective elements of the satellite antenna. 18. A system according to claim 15, wherein the signal processor is configured to further select the subset of the second spatially diverse signals responsive to an association of the radioterminal with an antenna pattern of the satellite and/or a received signal strength due to a transmission of the radioterminal. 19. A system according to claim 15, wherein the signal processor is operative to process a plurality of signal sets and to detect the transmission of the radioterminal by processing at least one signal set of the plurality of signal sets; wherein the plurality of signal sets is derived from the selected subset of the second spatially diverse signals. 20. A system according to claim 19, wherein the signal processor comprises: a selector configured to select the subset of the second spatially diverse signals;a channelization and frequency translation unit configured to generate the plurality of signal sets from the selected subset of the second spatially diverse signals; anda detector configured to detect the transmission of the radioterminal by adaptively processing at least one signal set of the plurality of signal sets. 21. A satellite communications method comprising: generating at a satellite a plurality of spatially diverse signals based upon a transmission of a radioterminal;selecting a subset of the plurality of spatially diverse signals based upon a location of the radioterminal; anddetecting a transmission of the radioterminal responsive to the selected subset of the spatially diverse signalswherein selecting a subset of the plurality of spatially diverse signals based upon a location of a radioterminal comprises selecting a first subset of the plurality of spatially diverse signals responsive to a transmission of a radioterminal;wherein detecting a transmission of the radioterminal responsive to the selected subset of the spatially diverse signals comprises detecting location information associated with the radioterminal responsive to the first subset of the plurality of spatially diverse signals;wherein selecting a subset of the plurality of spatially diverse signals based upon a location of a radioterminal further comprises selecting a second subset of the plurality of spatially diverse signals responsive to the detected location information; andwherein detecting a transmission of the radioterminal responsive to the selected subset of the spatially diverse signals further comprises detecting a subsequent transmission of the radioterminal responsive to the second subset of the plurality of spatially diverse signals;wherein the selecting and detecting are performed at a distance from the satellite. 22. A method according to claim 21, wherein respective ones of the plurality of spatially diverse signals comprise signals corresponding to respective elements of an antenna of the satellite. 23. A method according to claim 21, wherein selecting a subset of the plurality of spatially diverse signals based upon a location of a radioterminal is preceded by transmitting the plurality of spatially diverse signals from the satellite to a satellite gateway. 24. A method according to claim 21, wherein generating at a satellite a plurality of spatially diverse signals based upon a transmission of a radioterminal comprises: generating first spatially diverse signals from a satellite antenna; andgenerating a feeder link signal including second spatially diverse signals responsive to the first spatially diverse signals, including spectrally distributing the second spatially diverse signals in the feeder link signal;wherein selecting a subset of the plurality of spatially diverse signals based upon a location of a radioterminal comprises selecting a subset of the second spatially diverse signals based upon the location of a radioterminal; andwherein detecting a transmission of the radioterminal responsive to the selected subset of the spatially diverse signals comprises detecting a transmission of the radioterminal responsive to the selected subset of the second spatially diverse signals. 25. A method according to claim 21, wherein selecting a subset of the plurality of spatially diverse signals based upon a location of a radioterminal comprises further selecting the subset of the plurality of spatially diverse signals based on an association of a radioterminal with an antenna pattern of the satellite and/or a received signal strength due to a transmission of a radioterminal. 26. A method according to claim 21, wherein detecting a transmission of the radioterminal responsive to the selected subset of the spatially diverse signals comprises: generating a plurality of signal sets from the selected subset of spatially diverse signals; anddetecting a transmission of the radioterminal by adaptively processing at least one signal set of the plurality of signal sets.
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