IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0471000
(2012-05-14)
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등록번호 |
US-8520721
(2013-08-27)
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발명자
/ 주소 |
- Myers, Theodore J.
- Boesel, Robert W.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
182 |
초록
▼
This disclosure relates to method, device and system for controlling power in a communication system. A plurality of power levels is measured from a received signal that includes a pulsed noise source. The received signal is correlated with a known sequence creating a correlation metric. A signal po
This disclosure relates to method, device and system for controlling power in a communication system. A plurality of power levels is measured from a received signal that includes a pulsed noise source. The received signal is correlated with a known sequence creating a correlation metric. A signal power is determined based on the correlation metric and the plurality of power levels. An uplink signal is transmitted at a transmit power that is based on the signal power.
대표청구항
▼
1. A method of controlling power in a communication system, the method comprising: correlating a received signal, received at a receiver, with a known sequence to determine a correlation metric over a correlating period of time;measuring a plurality of sampled power levels from the received signal a
1. A method of controlling power in a communication system, the method comprising: correlating a received signal, received at a receiver, with a known sequence to determine a correlation metric over a correlating period of time;measuring a plurality of sampled power levels from the received signal at a frequency whose period is less than the correlating period of time, wherein the received signal comprises a pulsed noise signal, and wherein the pulsed noise signal interferes with the received signal for a portion of the period of time;determining a high-energy metric based upon an average of the plurality of sampled power levels;determining a signal power using the correlation metric and the high-energy metric, wherein at least a portion of the pulsed noise signal power is excluded from the signal power based upon at least the plurality of sampled power levels; andtransmitting an uplink signal at a transmit power at a transmitter wherein the transmit power is based in part on the determined signal power, wherein the uplink signal is transmitted at a first time based on a slot start time and a first random timing offset, wherein the uplink signal is transmitted while at least a portion of a second signal is transmitted from a second node such that both the uplink signal and the second signal are received, and wherein the second signal is transmitted at a second time based on the slot start time and a second random timing offset. 2. The method of claim 1, wherein the correlation metric is determined in part by computing an average of a plurality of despread symbols, wherein a despread symbol of the plurality of despread symbols is computed in part from correlating the received signal with the known sequence. 3. The method of claim 2, wherein the plurality of despread symbols comprises sixteen despread symbols. 4. The method of claim 1, wherein the correlation metric is determined in part from an empirical mapping of the correlated received signal. 5. The method of claim 1, wherein the known sequence is a gold code. 6. The method of claim 1, wherein the plurality of sampled power levels are measured during a second period of time that overlaps with the correlating period of time used. 7. The method of claim 1, wherein the signal power excluding power of the pulsed noise signal is calculated as CM*[1/AVG(1/SQRT(Pi))]2 where CM is the correlation metric and Pi is each of the plurality of sampled power levels. 8. The method of claim 1, wherein the received signal comprises a broadcast channel. 9. The method of claim 1, further comprising calculating a node interference based in part on the signal power, and transmitting the node interference to an access point. 10. A node comprising: a processor;a receiver operatively coupled to the processor and configured to: correlate a received signal with a known sequence to determine a correlation metric over a correlating period of time;measure a plurality of sampled power levels from the received signal at a frequency whose period is less than the correlating period of time, wherein the received signal comprises a pulsed noise signaand wherein the pulsed noise signal interferes with the received signal for a portion of the period of time; anddetermine a high-energy metric based upon an average of the plurality of sampled power levels;determine a signal power using the correlation metric and the high-energy metric, wherein at least a portion of the pulsed noise signal power is excluded from the signal power based upon at least the plurality of sampled power levels; anda transmitter operatively coupled to the processor and configured to: transmit a signal at a transmit power based in part on the determined signal power, wherein the signal is transmitted at a first time based on a slot start time and a first random timing offset, wherein the signal is transmitted while at least a portion of a second signal is transmitted from a second node such that both the signal and the second signal are received, and wherein the second signal is transmitted at a second time based on the slot start time and a second random timing offset. 11. The node of claim 10, wherein the correlation metric is determined in part by computing an average of a plurality of despread symbols, wherein each despread symbol of the plurality of despread symbols is computed in part from correlating the received signal with the known sequence. 12. The node of claim 10, wherein the known sequence is a gold code. 13. The node of claim 10, wherein the plurality of sampled power levels are measured during a second period of time that overlaps with the correlating period of time. 14. The node of claim 10, wherein the received signal comprises a broadcast channel. 15. A system comprising: an access point comprising: a downlink transmitter configured to transmit a downlink signal; anda node comprising: a processor;a receiver operatively coupled to the processor and configured to: correlate a received signal with a known sequence to determine a correlation metric over a correlating period of time;measure a plurality of sampled power levels from the received signal at a frequency whose period is less than the correlating period of time, wherein the received signal comprises a pulsed noise signal, and wherein the pulsed noise signal interferes with the received signal for a portion of the period of time; anddetermine a high-energy metric based upon an average of the plurality of sampled power levels;determine a signal power using the correlation metric and the high-energy metric, wherein at least a portion of the pulsed noise signal power is excluded from the signal power based upon at least the plurality of sampled power levels; anda transmitter operatively coupled to the processor and configured to: transmit a signal at a transmit power wherein the transmit power is based in part on the determined signal power, wherein the signal is transmitted at a first time based on a slot start time and a first random timing offset, wherein the signal is transmitted while at least a portion of a second signal is transmitted from a second node such that both the signal and the second signal are received, and wherein the second signal is transmitted at a second time based on the slot start time and a second random timing offset. 16. The system of claim 15, wherein the correlation metric is determined in part by computing an average of a plurality of despread symbols, wherein each despread symbol of the plurality of despread symbols is computed in part from correlating the received signal with the known sequence. 17. The system of claim 15, wherein the known sequence is a gold code. 18. The system of claim 15, wherein the plurality of sampled power levels are measured during a second period of time that overlaps with the correlating period of time. 19. The system of claim 15, wherein the received signal comprises a broadcast channel.
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