최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0230625 (2011-09-12) |
등록번호 | US-8964719 (2015-02-24) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 9 인용 특허 : 348 |
A method and apparatus for allocating subcarriers in an orthogonal frequency division multiple access (OFDMA) system is described. In one embodiment, the method comprises allocating at least one diversity cluster of subcarriers to a first subscriber and allocating at least one coherence cluster to a
A method and apparatus for allocating subcarriers in an orthogonal frequency division multiple access (OFDMA) system is described. In one embodiment, the method comprises allocating at least one diversity cluster of subcarriers to a first subscriber and allocating at least one coherence cluster to a second subscriber.
1. A method for wireless communication in an orthogonal frequency division multiple access (OFDMA) wireless system, said method comprising: receiving, at a base station from a first subscriber station located in a first sector of a cell of said OFDMA wireless system, first channel quality and interf
1. A method for wireless communication in an orthogonal frequency division multiple access (OFDMA) wireless system, said method comprising: receiving, at a base station from a first subscriber station located in a first sector of a cell of said OFDMA wireless system, first channel quality and interference information of subcarriers;receiving, at said base station from a second subscriber station located in a second sector of said cell of said OFDMA wireless system, second channel quality and interference information of said subcarriers;analyzing, at said base station, said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively; andallocating, by said base station, at least some of said subcarriers to said first and second subscriber stations based on said analyzing of said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively, said allocating of said at least some of said subcarriers comprising: allocating, by said base station, a first plurality of said subcarriers to said first subscriber station located in said first sector of said cell, said allocating of said first plurality of said subcarriers to said first subscriber station being based on said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively; andallocating, by said base station, a second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said allocating of said second plurality of said subcarriers to said second subscriber station being based on said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively, said allocated first plurality of said subcarriers being different than said allocated second plurality of said subcarriers. 2. The method of claim 1, wherein said first and second channel quality and interference information of said subcarriers comprises signal to noise plus interference ratio (SINR) information sufficient to determine SINR. 3. The method of claim 2, wherein said first and second channel quality and interference information of said subcarriers further comprises received signal strength (RSS) information sufficient to determine RSS. 4. The method of claim 3, further comprising: summing said RSS information and said SINR information of said subcarriers; andprioritizing said subcarriers based on said summing. 5. The method of claim 1, wherein said first and second channel quality and interference information of said subcarriers comprises SINR information relating to pilot symbols transmitted over said wireless communication. 6. The method of claim 1, wherein said first and second channel quality and interference information of said subcarriers comprises SINR information relating to data symbols transmitted over said wireless communication. 7. The method of claim 1, wherein said first and second channel quality and interference information of said subcarriers includes at least one of inter-cell interference information and intra-cell traffic information. 8. The method of claim 1, further comprising: re-allocating, from time to time, by said base station, a new plurality of said subcarriers different than said first plurality of said subcarriers to said first subscriber station located in said first sector of said cell and a new plurality of said subcarriers different than said second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said re-allocating said new plurality of said subcarriers different than said first plurality of said subcarriers and said new plurality of said subcarriers different than said second plurality of said subcarriers being based on new channel quality and interference information of said subcarriers received from said first and second subscriber stations. 9. A method for wireless communication in an orthogonal frequency division multiple access (OFDMA) wireless system, said method comprising: sending a first instruction, said first instruction being sent from a base station to a first subscriber station located in a first sector of a cell of said OFDMA wireless system to measure a first channel quality and interference information of subcarriers, said subcarriers being available for said wireless communication between said base station and said first subscriber station;sending a second instruction, said second instruction being sent from said base station to a second subscriber station located in a second sector of said cell of said OFDMA wireless system to measure a second channel quality and interference information of said subcarriers, said subcarriers being available for said wireless communication between said base station and said second subscriber station;receiving, at said base station, said first channel quality and interference information of said subcarriers measured from said first subscriber station;receiving, at said base station, said second channel quality and interference information of said subcarriers measured from said second subscriber station;allocating, by said base station, a first plurality of said subcarriers to said first subscriber station located in said first sector of said cell, said allocating of said first plurality of said subcarriers to said first subscriber station being based on said first and second measured channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively; andallocating, by said base station, a second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said allocating of said second plurality of said subcarriers to said second subscriber station being based on said first and second measured channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively, said allocated first plurality of said subcarriers being different than said allocated second plurality of said subcarriers. 10. The method of claim 9, wherein said allocating of said first and second plurality of said subcarriers to said first and second subscriber stations, respectively, comprises allocating at least one of a diversity cluster and a coherence cluster to said first subscriber station and said second subscriber station. 11. The method of claim 9, wherein said allocating of said first plurality of said subcarriers to said first subscriber station comprises allocating additional subcarriers of said subcarriers to said first subscriber station when said first measured channel quality and interference information of said subcarriers from said first subscriber station is below a determined value. 12. The method of claim 9, wherein said allocating of said first plurality of said subcarriers to said first subscriber station comprises allocating additional subcarriers of said subcarriers to said first subscriber station after first determining if there are subscriber stations other than said first subscriber station requesting subcarriers. 13. The method of claim 9, further comprising: re-allocating, from time to time, by said base station, a new plurality of said subcarriers different than said first plurality of said subcarriers to said first subscriber station located in said first sector of said cell and a new plurality of said subcarriers different than said second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said re-allocating said new plurality of said subcarriers different than said first plurality of said subcarriers and said new plurality of said subcarriers different than said second plurality of said subcarriers being based on newly measured channel quality and interference information of said subcarriers received from said first and second subscriber stations. 14. The method of claim 9, wherein said first and second measured channel quality and interference information of said subcarriers includes at least one of inter-cell interference information and intra-cell traffic information. 15. A base station for wireless communication in an orthogonal frequency division multiple access (OFDMA) wireless system, said base station comprising: a controller configured to: receive, from a first subscriber station located in a first sector of a cell of said OFDMA wireless system, first channel quality and interference information of subcarriers;receive, from a second subscriber station located in a second sector of said cell of said OFDMA wireless system, second channel quality and interference information of said subcarriers;analyze said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively; and allocate at least some of said subcarriers to said first and second subscriber stations based on said analysis of said first and second channel quality and interference information of said subcarriers received from said first and said second subscriber stations, respectively, said allocation of said at least some of said subcarriers comprising: allocating a first plurality of said subcarriers to said first subscriber station located in said first sector of said cell, said allocation of said first plurality of said subcarriers to said first subscriber station being based on said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively; andallocating a second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said allocation of said second plurality of said subcarriers to said second subscriber station being based on said first and second channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively, said first plurality of said subcarriers being different than said second plurality of said subcarriers. 16. The base station of claim 15, wherein said first and second channel quality and interference information of said subcarriers comprises signal to noise plus interference ratio (SINR) information sufficient to determine SINR. 17. The base station of claim 16, wherein said first and second channel quality and interference information of said subcarriers further comprises received signal strength (RSS) information sufficient to determine RSS. 18. The base station of claim 17, wherein said controller is further configured to: sum said RSS information and said SINR information of said subcarriers; andprioritize said subcarriers based on said summation. 19. The base station of claim 15, wherein said first and second channel quality and interference information of said subcarriers comprises SINR information relating to pilot symbols transmitted over said wireless communication. 20. The base station of claim 15, wherein said first and second channel quality and interference information of said subcarriers comprises SINR information relating to data symbols transmitted over said wireless communication. 21. The base station of claim 15, wherein said first and second channel quality and interference information of said subcarriers includes at least one of inter-cell interference information and intra-cell traffic information. 22. The base station of claim 15, wherein said controller is further configured to: re-allocate, from time to time, a new plurality of said subcarriers different than said first plurality of said subcarriers to said first subscriber station located in said first sector of said cell and a new plurality of said subcarriers different than said second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said re-allocation of said new plurality of said subcarriers different than said first plurality of said subcarriers and said new plurality of said subcarriers different than said second plurality of said subcarriers being based on new channel quality and interference information of said subcarriers received from said first and second subscriber stations. 23. A base station for wireless communication in an orthogonal frequency division multiple access (OFDMA) wireless system, said base station comprising: a controller configured to: send a first instruction, said first instruction being sent from said base station to a first subscriber station located in a first sector of cell of said OFDMA wireless system to measure a first channel quality and interference information of subcarriers, said subcarriers being available for said wireless communication between said base station and said first subscriber station;send a second instruction, said second instruction being sent from said base station to a second subscriber station located in a second sector of said cell of said OFDMA wireless system to measure a second channel quality and interference information of said subcarriers, said subcarriers being available for said wireless communication between said base station and said second subscriber station;receive said first channel quality and interference information of said subcarriers measured from said first subscriber station;receive said second channel quality and interference information of said subcarriers measured from said second subscriber station; andallocate a first plurality of said subcarriers to said first subscriber station located in said first sector of said cell, said allocation of said first plurality of said subcarriers to said first subscriber station being based on said first and second measured channel quality and interference information of said subcarriers received from said first and second subscriber stations; respectively; andallocate a second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said allocation of said second plurality of said subcarriers to said second subscriber station being based on said first and second measured channel quality and interference information of said subcarriers received from said first and second subscriber stations, respectively, said first plurality of said subcarriers being different than said second plurality of said subcarriers. 24. The base station of claim 23, wherein said allocation of said first and second plurality of said subcarriers to said first and second subscriber stations, respectively, comprises allocating at least one of a diversity cluster and a coherence cluster to said first subscriber station and said second subscriber station. 25. The base station of claim 23, wherein said allocation of said first plurality of said subcarriers to said first subscriber station comprises allocating additional subcarriers of said subcarriers to said first subscriber station when said first measured channel quality and interference information of said subcarriers from said first subscriber station is below a determined value. 26. The base station of claim 23, wherein said allocation of said first plurality of said subcarriers to said first subscriber station comprises allocating additional subcarriers of said subcarriers to said first subscriber station after first determining if there are subscriber stations other than said first subscriber station requesting subcarriers. 27. The base station of claim 23, wherein said controller is further configured to: re-allocate, from time to time, a new plurality of said subcarriers different than said first plurality of said subcarriers to said first subscriber station located in said first sector of said cell and a new plurality of said subcarriers different than said second plurality of said subcarriers to said second subscriber station located in said second sector of said cell, said re-allocation of said new plurality of said subcarriers different than said first plurality of said subcarriers and said new plurality of said subcarriers different than said second plurality of said subcarriers being based on newly measured channel quality and interference information of said subcarriers received from said first and second subscriber stations. 28. The base station of claim 23, wherein said first and second measured channel quality and interference information of said subcarriers includes at least one of inter-cell interference information and intra-cell traffic information.
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