Delay-induced scattering with phase randomization and partitioned frequency hopping
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-001/00
H04L-027/00
출원번호
US-0953158
(2007-12-10)
등록번호
US-8363694
(2013-01-29)
발명자
/ 주소
Ghosh, Arunabha
출원인 / 주소
AT&T Intellectual Property I, L.P.
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
A method includes partitioning a set of hopping carrier frequencies into disjoint sets including a first set and a second set such that a frequency correlation between a first hopping carrier frequency of the first set and a second hopping carrier frequency of the second set is approximately zero. T
A method includes partitioning a set of hopping carrier frequencies into disjoint sets including a first set and a second set such that a frequency correlation between a first hopping carrier frequency of the first set and a second hopping carrier frequency of the second set is approximately zero. The method also includes generating at least one copy of a signal, which includes a plurality of time division multiple access (TMDA) frames. The at least one copy of the signal has a fixed delay and a random phase relative to the signal. The method further includes transmitting the signal and the at least one copy of the signal using selected hopping carrier frequencies from the first and second sets such that a frame is sent using the first hopping carrier frequency from the first set and an adjacent second frame is sent using the second hopping carrier frequency from the second set.
대표청구항▼
1. A method comprising: partitioning, at a first access point, a set of hopping carrier frequencies into disjoint sets including a first set and a second set such that a frequency correlation between a first hopping carrier frequency of the first set and a second hopping carrier frequency of the sec
1. A method comprising: partitioning, at a first access point, a set of hopping carrier frequencies into disjoint sets including a first set and a second set such that a frequency correlation between a first hopping carrier frequency of the first set and a second hopping carrier frequency of the second set is approximately zero, wherein the first set includes odd frequencies of the set but excludes even frequencies of the set, and wherein the second set includes the even frequencies of the set but excludes the odd frequencies;generating at least one copy of a signal, the signal comprising a plurality of time division multiple access frames, the at least one copy of the signal having a fixed delay and a random phase relative to the signal; andwhen the first access point is operating in a first operating mode, transmitting the signal and the at least one copy of the signal using selected hopping carrier frequencies from the first and second sets such that a time division multiple access frame is sent using the first hopping carrier frequency from the first set and an adjacent second frame is sent using the second hopping carrier frequency from the second set,wherein, when the first access point is operating in the first operating mode, transmitting the signal and the at least one copy of the signal includes transmitting even framers of the plurality of time division multiple access frames using frequencies of the first set and odd frames of the plurality of time division multiple access frames using frequencies of the second set while a second access point transmits even time division multiple access frames using the frequencies of the second set and odd time division multiple access frames using the frequencies of the first set. 2. The method of claim 1, wherein the first hopping carrier frequency and the second hopping carrier frequency have frequencies that are separated by an odd multiple of a separation value. 3. The method of claim 1, wherein the fixed delay is proportional to a separation value between the first hopping carrier frequency and the second hopping carrier frequency. 4. The method of claim 3, wherein the fixed delay is about equal to ½W wherein W is a separation value, and wherein consecutive pairs of the hopping carrier frequencies for consecutive pairs of the time division multiple access frames are separated by an odd multiple of W. 5. The method of claim 4, wherein W is approximately equal to 200 kHz, and the fixed delay is about equal to 2.5 μsec. 6. The method of claim 1, wherein the time division multiple access frames of the signal and of the at least one copy of the signal are sent such that adjacent time division multiple access frames are sent using hopping carrier frequencies that are alternately selected from the first set and from the second set. 7. A method comprising: generating two or more copies of a signal, the signal comprising a plurality of time division multiple access frames, the two or more copies of the signal including a first copy and one or more other copies of the signal, each of the one or more other copies of the signal having a respective fixed delay and a respective random phase relative to the first copy of the signal;transmitting the two or more copies of the signal via an antenna using hopping carrier frequencies, wherein the hopping carrier frequencies associated with consecutive pairs of the time division multiple access flames are separated by an odd multiple of a separation value representing a frequency separation between two adjacent carrier signals, and wherein the respective fixed delay is proportional to the separation value for each of the one or more other copies of the signal. 8. The method of claim 7, wherein the respective fixed delay comprises approximately 0.5 divided by the separation value. 9. The method of claim 7, wherein the one or more other copies of the signal includes a second copy of the signal having a first fixed delay and a first random phase and includes a third copy of the signal having a second fixed delay and a second random phase. 10. The method of claim 7, wherein the respective fixed delay associated with each of the one or more other copies of the signal is unique. 11. The method of claim 7, wherein the respective random phase associated with each of the one or more other copies of the signal is unique. 12. The method of claim 7, further comprising combining the first copy and the one or more other copies of the signal before transmitting the two or more copies of the signal. 13. A system comprising: an antenna;a pulse shaper to receive a signal and to process the signal to produce a time division multiple access signal comprising a plurality of time division multiple access frames;a phase randomization component to adjust a phase associated with frames of a copy of the time division multiple access signal by a random phase, the phase randomization component adapted to change the random phase from each time division multiple access frame to a next frame of the plurality of time division multiple access frames;a time delay component to introduce a fixed delay to the frames associated with the copy of the time division multiple access signal; andwherein the time division multiple access signal and the copy of the time division multiple access signal are combined to form a combined time division multiple access signal that is transmitted to a destination device via an antenna using selected hopping carrier frequencies, and wherein the fixed delay is selected to force a correlation of frequency-selective fades between carrier frequencies of adjacent time division multiple access frames to approximately zero. 14. The system of claim 13, wherein a first hopping carrier frequency is selected for a first frame of the combined time division multiple access signal and a second hopping carrier frequency is selected fora second frame of the combined time division multiple access signal such that adjacent frames of the combined time division multiple access signal have hopping carrier frequencies that are separated by an odd multiple of a separation value. 15. The system of claim 13, wherein the phase randomization component is adapted to generate the phase based on a uniform distribution. 16. The system of claim 13, wherein the combined time division multiple access signal has a wider power delay profile than the time division multiple access signal. 17. The system of claim 16, wherein the wider power delay profile narrows an envelope correlation function in a frequency domain, reducing a correlation between carrier frequencies of adjacent time division multiple access frames. 18. The system of claim 13, wherein the phase randomization component is adapted to adjust a phase associated with second frames of a second copy of the time division multiple access signal by a second random phase, wherein the time delay component is adapted to introduce a second fixed delay to the second frames associated with the second copy of the time division multiple access signal, and wherein the combined time division multiple access signal includes the second copy of the time division multiple access signal including the second random phase and the second fixed delay. 19. The method of claim 1, wherein, when the first access point is operating in a second operating mode, transmitting the signal and the at least one copy of the signal further includes transmitting the even frames of the plurality of time division multiple access frames using the frequencies of the second set and the odd frames of the plurality of time division multiple access frames using the frequencies of the first set, while the second access point transmits the even time division multiple access frames using the frequencies of the first set and the odd time division multiple access frames using the frequencies of the second set.
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