IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0642096
(2003-08-14)
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등록번호 |
US-7366200
(2008-04-29)
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발명자
/ 주소 |
- Laroia,Rajiv
- Lane,Frank A.
- Li,Junyi
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
35 인용 특허 :
42 |
초록
▼
A few high power tones used for synchronization and/or other purposes are transmitted in a FDM system during a period of time into a region, e.g., sector of a cell, e.g., a symbol transmission time period. During normal data transmission symbol periods signals are transmitted using at least 10 tone
A few high power tones used for synchronization and/or other purposes are transmitted in a FDM system during a period of time into a region, e.g., sector of a cell, e.g., a symbol transmission time period. During normal data transmission symbol periods signals are transmitted using at least 10 tones, e.g., per symbol time. Less than 5 high power signals are transmitted in a symbol time with at least 80% the maximum total transmitter power used for transmitting into said region being allocated to the high power signals where the maximum total transmitter power is determined from a period of time which may includes one or more data and/or high power tone transmission periods. When the high power tones are transmitted at most 20% of transmitter power used for transmitting into the region is available for transmitting other tones with the power normally being distributed among multiple tones. Often some tones which would be transmitted in a symbol time go unused during transmission of the high power signals.
대표청구항
▼
What is claimed is: 1. A method of operating a transmitter in a frequency division multiplexed communications system the transmitter using a set of N tones to communicate information over a first period of time using first signals into a first region, said first period of time being at least two se
What is claimed is: 1. A method of operating a transmitter in a frequency division multiplexed communications system the transmitter using a set of N tones to communicate information over a first period of time using first signals into a first region, said first period of time being at least two seconds long, where N is larger than 10, the method comprising: transmitting during a second period of time a second signal including a set of X tones into said first region, where X is less than 5, and where at least 80% of a maximum average total transmission power, used by said transmitter to transmit signals into the first region during any 1 second period during said first period of time, is allocated to said set of X tones during said second period of time. 2. The method of claim 1, wherein said first region is a sector of a cell. 3. The method of claim 1, where X is equal to one or two. 4. The method of claim 1, wherein at least half of the N-X tones which are in said set of N tones but not in said set of X tones go unused during said second period of time in the first region. 5. The method of claim 4, wherein none of the N-X tones in said set of N tones but not in said set of X tones are used during said second period of time in the first region. 6. The method of claim 4, wherein multiple ones of the N-X tones in said set of N tones but not in said set of X tones are used during said second period of time in the first region. 7. The method of claim 1, wherein said first region is a sector of a cell; and wherein said communications system is an orthogonal frequency division multiplexed system and wherein said second period of time is a period of time used to transmit an orthogonal frequency division multiplexed symbol. 8. The method of claim 7, wherein said first signals do not include a beacon signal; wherein said second signal is a beacon signal; and wherein said second period of time periodically repeats during said first period of time. 9. The method of claim 7, wherein said method further comprises: transmitting during a third period of time a third signal into said first region including a set of Y tones, where Y≦N, each tone in said third set of Y tones having 20% or less of said maximum average total transmission power used by said transmitter to transmit into said first region during any 1 second period during said first period of time, said third period of time having the same duration as said second period of time. 10. The method of claim 9, wherein said third period of time and said second period of time overlap, the method further comprising: modulating at least two of data, control and pilot signals on at least some of said set of Y tones. 11. The method of claim 9, wherein said third period of time and said second period of time are disjoint, the method further comprising: modulating at least two of data, control and pilot signals on at least some of said set of Y tones. 12. The method of claim 7, wherein at least one of said X tones is transmitted at a predetermined fixed frequency; and wherein said at least one of said X tones is transmitted using a frequency having a fixed frequency offset≧0 from the lowest frequency tone in said set of N tones. 13. The method of claim 7, wherein at least one of said x tones is transmitted at a frequency which is determined as a function of a device identifier. 14. The method of claim 9, wherein for each repetition of said second period of time in said first period of time there are at least Z repetitions of said third period of time in said first period of time where Z is at least 10. 15. The method of claim 14, wherein Z is at least 400. 16. The method of claim 7, further comprising: transmitting during a fourth period of time a fourth signal including G tones into the first region, where G is less than 5, and where at least 80% of said maximum average total transmitter power, used by said transmitter to transmit into said first region during any 1 second period during said first period of time is allocated to said G tones. 17. The method of claim 16, wherein the frequency of at least one of said G tones is a function of at least one of a base station identifier and a sector identifier, and wherein said at least one of said G tones is not one of said set of X tones. 18. The method of claim 17, wherein said second and fourth periods of time periodically repeat during said first period of time. 19. The method of claim 1, wherein said first period of time is at least 30 minutes. 20. A communications device for use in a frequency division multiplexed communications system, the communications device comprising: a transmitter that uses a set of N tones to communicate information into a first region; first control means coupled to said transmitter, for controlling the transmitter to transmit over a first period of time using first signals into the first region, said first period of time being at least two seconds long, where N is larger than 10; and second control means coupled to said transmitter for controlling the transmitter to transmit during a second period of time a second signal including a set of X tones into said first region, where X is less than 5, and where at least 80% of a maximum average total transmission power, used by said transmitter to transmit into the first region during any 1 second period during said first period of time, is allocated to said set of X tones during said second period of time. 21. The communications device of claim 20, wherein said first period of time is at least 30 minutes; and wherein said first region is a first sector of a cell including first and second sectors. 22. The communications device of claim 20, wherein the first and second control means are different portions of a control routine; and where X is equal to one or two. 23. The communications device of claim 20, wherein at least half of the N-X tones which are in said set of N tones but not in said set of X tones go unused in the first region during said second period of time. 24. The communications device of claim 23, wherein none of the N-X tones in said set of N tones but not in said set of X tones are used in the first region during said second period of time. 25. The communications device of claim 23, wherein multiple ones of the N-X tones in said set of N tones but not in said set of X tones are used during said second period of time. 26. The communications device of claim 20, wherein said communications system is an orthogonal frequency division multiplexed system and wherein said second period of time is a period of time used to transmit an orthogonal frequency division multiplexed symbol. 27. The communications device of claim 26, wherein said second period of time periodically repeats during said first period of time. 28. The communications device of claim 26, further comprising: third control means for controlling the transmitter to transmit into the first region during a third period of time a third signal including a set of Y tones into the first region, where Y≦N, each tone in said third set of Y tones having 20% or less of said maximum average total transmission power, used by said to transmit signals into the first region during any 1 second period during said first period of time, said third period of time having the same duration as said second period of time. 29. The communications device of claim 28, wherein said third period of time and said second period of time are disjoint, the communications device further comprising: means for modulating at least two of data, control and pilot signals on at least some of said set of Y tones. 30. The communications device of claim 26, wherein at least one of said X tones is transmitted at predetermined fixed frequency. 31. The communications device of claim 26, further comprising: fourth control means for controlling the transmitter to transmit into the first region during a fourth period of time a fourth signal including G tones, where G is less than 5, and where at least 80% of said maximum average total transmitter power, used by said transmitter to transmit tones into the first region during any 1 second period during said first period of time is allocated to said G tones. 32. The communications device of claim 31, wherein the frequency of at least one of said G tones is a function of at least one of a base station identifier and a sector identifier, and wherein said at least one of said G tones is not one of said set of X tones. 33. The communications device of claim 32, wherein said second and fourth periods of time periodically repeat during said first period of time. 34. A computer readable medium including computer executable instructions stored thereon for controlling a communications device to implement a communications method, the communications method including: controlling a transmitter in a frequency division multiplexed communications system to use a set of N tones to transmit information on first signals during a first period of time into a first region, said first period of time being at least two seconds long, where N is larger than 10; and controlling the transmitter to transmit during a second period of time a second signal including a set of X tones into said first region, where X is less than 5, and where at least 80% of a maximum average total transmission power, used by said transmitter to transmit signals into the first region during any 1 second period during said first period of time, is allocated to said set of X tones during said second period of time. 35. The computer readable medium of claim 34, wherein said first region is a sector of a cell. 36. The computer readable medium of claim 34, where X is equal to one or two. 37. A communication device comprising a processor configured to implement a communications method, the communications method including: controlling a transmitter in a frequency division multiplexed communications system to use a set of N tones to transmit information on first signals during a first period of time into a first region, said first period of time being at least two seconds long, where N is larger than 10; and controlling the transmitter to transmit during a second period of time a second signal including a set of X tones into said first region, where X is less than 5, and where at least 80% of a maximum average total transmission power, used by said transmitter to transmit signals into the first region during any 1 second period during said first period of time, is allocated to said set of X tones during said second period of time. 38. The communications device of claim 37, wherein said first region is a sector of a cell. 39. The communications device of claim 37, where X is equal to one or two. 40. A communications device for use in a frequency division multiplexed communications system, the communications device comprising: a transmitter that uses a set of N tones to communicate information into a first region; and a control module coupled to said transmitter, for controlling the transmitter to: i) transmit over a first period of time using first signals into the first region, said first period of time being at least two seconds long, where N is larger than 10 and ii) transmit during a second period of time a second signal including a set of X tones into said first region, where X is less than 5, and where at least 80% of a maximum average total transmission power, used by said transmitter to transmit into the first region during any 1 second period during said first period of time, is allocated to said set of X tones during said second period of time. 41. The communications device of claim 40, wherein said first period of time is at least 30 minutes; and wherein said first region is a first sector of a cell including first and second sectors. 42. The communications device of claim 40, wherein the control module includes different portions of a control routine; and where X is equal to one or two. 43. The communications device of claim 40, wherein at least half of the N-X tones which are in said set of N tones but not in said set of X tones go unused in the first region during said second period of time.
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