IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0675706
(2000-09-29)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
47 인용 특허 :
14 |
초록
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Techniques to (more accurately) estimate the transmit power available for data service in a future time period (e.g., the next frame). In accordance with one aspect, variation in the available transmit power over time is estimated. A first margin is then computed and used to account for the estimate
Techniques to (more accurately) estimate the transmit power available for data service in a future time period (e.g., the next frame). In accordance with one aspect, variation in the available transmit power over time is estimated. A first margin is then computed and used to account for the estimated variation in the available transmit power. The available transmit power at a future time instance (e.g., the beginning of the next frame) is predicted and reduced by the first margin to derive a more accurate estimate of the available transmit power for the next frame. In accordance with another aspect, variation in the required transmit power for a particular data user is estimated and used in scheduling data transmission to this data user. A second margin can be computed and used to account for the estimated variation in the required transmit power for the data user. Whereas the first margin accounts for variation in the (overall) available transmit power, the second margin is specific to the particular link conditions experienced by the data user.
대표청구항
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1. In a wireless communication system, a method for estimating transmit power available for data transmissions in a future time period, the method comprising: estimating an amount of variation in the available transmit power over time; determining a margin to account for the estimated amount of
1. In a wireless communication system, a method for estimating transmit power available for data transmissions in a future time period, the method comprising: estimating an amount of variation in the available transmit power over time; determining a margin to account for the estimated amount of variation in the available transmit power; predicting transmit power available at a future time instance for data transmissions; and estimating transmit power available for data transmissions for the future time period based on the predicted available transmit power and the margin. 2. The method of claim 1, further comprising: receiving a set of values indicative of the available transmit power for a prior time period, and wherein the estimated amount of variation in the available transmit power is based on the received set of values. 3. The method of claim 1, further comprising: receiving a predicted available transmit power for a prior time instance and an average available transmit power for a prior time period, and wherein the estimated amount of variation in the available transmit power is based on the received predicted and average available transmit power. 4. The method of claim 3, wherein the received average available transmit power is averaged over a prior transmission interval.5. The method of claim 3, wherein the estimating the amount of variation includes determining a difference between the received predicted and average available transmit power, and determining a first value related to a standard deviation of the difference. 6. The method of claim 5, wherein the determining the first value includes averaging the difference in accordance with a first weighting scheme, averaging a square of the difference in accordance with a second weighting scheme to provide a mean square difference, and computing the first value based on the averaged difference and the mean square difference. 7. The method of claim 6, wherein the averaging the difference and the averaging the square difference are performed over a time window related to a transmission interval.8. The method of claim 6, wherein the first or second weighting scheme, or both, is an exponential averaging scheme.9. The method of claim 6, wherein the first or second weighting scheme, or both, is a linear averaging scheme.10. The method of claim 5, wherein the determining the first value includes averaging the difference in accordance with a first weighting scheme, computing a second value based on the difference and the averaged difference, and averaging the second value in accordance with a second weighting scheme to provide the first value. 11. The method of claim 5, wherein the margin is determined based on the difference and the first value.12. The method of claim 11, wherein the margin is equal to the difference plus a scaled square root of the first value.13. The method of claim 1, wherein the margin is determined based on statistics obtained for the available transmit power for a prior time period.14. The method of claim 1, wherein the estimated available transmit power for the future time period is obtained by subtracting the margin from the predicted available transmit power at the future time instance.15. The method of claim 1, wherein the predicted available transmit power at the future time instance is a function of the available transmit power at a current time instance or one or more prior time instances, or a combination the current and prior time instances.16. The method of claim 1, wherein the communication system is operative to support a plurality of types of service, and wherein the estimated available transmit power is used for data service.17. The method of claim 1, wherein the communication system is a CDMA system.18. In a wireless communication system, a method for estimating transmit power required for a data transmission over a future time period, the method comprising: estimating an amount of variation in the required transmit power over time; determining a margin to account for the estimated amount of variation in the required transmit power; and estimating transmit power required for the data transmission over the future time period based in part on the margin. 19. The method of claim 18, further comprising: predicting transmit power required at a future time instance for the data transmission, and wherein the estimated required transmit power is further based on the predicted required transmit power. 20. The method of claim 18, wherein the estimated required transmit power is further based on an average required transmit power computed for a prior time period.21. The method of claim 18, further comprising: estimating a rate of fading for a channel used for the data transmission, and wherein the estimated required transmit power is further based on the estimated rate of fading. 22. The method of claim 21, wherein the estimated required transmit power is further based on a transmit power predicted to be required at a future time instance for the data transmission, if the estimated rate of fading is less than a particular threshold value.23. The method of claim 21, wherein the estimated required transmit power is further based on an average required transmit power computed for a prior time period, if the estimated rate of fading is greater than a particular threshold value.24. The method of claim 18, further comprising: receiving a predicted required transmit power for a prior time instance and an average required transmit power for a prior time period, and wherein the estimating the amount of variation includes determining a difference between the received predicted and average required transmit power, anddetermining a value related to a standard deviation of the difference, and wherein the margin is determined based on the difference and the value related to the standard deviation. 25. In a wireless communication system, a method for estimating transmit power available for data transmissions for a future time period, the method comprising: receiving a predicted available transmit power for a prior time instance and an average available transmit power for a prior time period; determining a difference between the received predicted and average available transmit power; determining a first value related to a standard deviation of the difference; determining a margin to account for an estimated amount of variation in the available transmit power, wherein the margin is determined based on the difference and the first value; predicting transmit power available at a future time instance for data transmissions; and estimating transmit power available for data transmissions for the future time period based on the predicted available transmit power at the future time instance and the margin. 26. A method for scheduling data transmissions in a wireless communication system, the method comprising: estimating an amount of variation in transmit power available for data transmissions; determining a first margin to account for the estimated amount of variation in the available transmit power; estimating transmit power available for data transmissions for a future time period based in part on the first margin; estimating an amount of variation in transmit power required for a particular data transmission; determining a second margin to account for the estimated amount of variation in the required transmit power; and estimating transmit power available for the particular data transmission based in part on the estimated available transmit power for data transmissions and the second margin. 27. The method of claim 26, wherein the second margin accounts for changes in link conditions associated with the particular data transmission.28. A method for scheduling data transmissions for a plurality of data users in a wireless communication system, the method comprising: determining a first margin to account for an estimated amount of variation in transmit power available for data transmissions; estimating transmit power available for data transmissions for a future time period based in part on the first margin; determining a possible data rate for each data user based in part on the estimated available transmit power and a second margin determined for the data user; determining a priority index for each data user; and scheduling data transmissions for the plurality of data users based on the estimated available transmit power and the determined possible data rates and priority indices for the plurality of data users. 29. The method of claim 28, wherein the second margin for each data user accounts for variation in a required transmit power due to changes in link conditions.30. The method of claim 28, wherein the second margin for each data user is determined based on estimated variation in a required transmit power for the data user.31. The method of claim 28, wherein the scheduling data transmissions includes selecting a data user having a highest priority index, scheduling a data rate for the selected data user based on the possible data rate determined for the data user; estimating transmit power required for the scheduled data rate, and updating the estimated available transmit power to reflect the estimated required transmit power for the selected data user. 32. The method of claim 31, wherein the scheduling data transmissions further includes repeating the selecting a data user, scheduling the data rate, estimating required transmit power, and updating the estimated available transmit power until the plurality of data users have been scheduled or the estimated available transmit power is insufficient for additional data transmissions. 33. The method of claim 28, wherein the priority index of each data user is based on the possible data rate and a throughput for the data user.34. The method of claim 28, wherein the possible data rate for each data user is further based on a power-per-bit estimated to be required for a data transmission to the data user.35. The method of claim 34, wherein the required power-per-bit for the data transmission to the data user is estimated based on a second transmission to the data user.36. A scheduler in a wireless communication system, comprising: a memory unit coupled to the controller and operative to store data used for scheduling data transmission; and a controller coupled to the memory unit and operative to determine a first margin to account for an estimated amount of variation in transmit power available for data transmissions,estimate transmit power available for data transmissions for a future time period based in part on the first margin,determine a possible data rate for each data user based in part on the estimated available transmit power and a second margin determined for the data user,determine a priority index for each data user, andschedule data transmissions for the plurality of data users based on the estimated available transmit power and the determined possible data rates and priority indices for the plurality of data users.37. An apparatus for estimating transmit power available for data transmissions in a future time period, the apparatus comprising: means estimating an amount of variation in the available transmit power over time; means for determining a margin to account for the estimated amount of variation in the available transmit power; means for predicting transmit power available at a future time instance for data transmissions; and estimating transmit power available for data transmissions for the future time period based on the predicted available transmit power and the margin. 38. An apparatus for estimating transmit power required for a data transmission over a future time period, the apparatus comprising: means for estimating an amount of variation in the required transmit power over time; me ans for determining a margin to account for the estimated amount of variation in the required transmit power; and means for estimating transmit power required for the data transmission over the future time period based in part on the margin. 39. An apparatus for estimating transmit power available for data transmissions for a future time period, the apparatus comprising: means for receiving a predicted available transmit power for a prior time instance and an average available transmit power for a prior time period; means for determining a difference between the received predicted and average available transmit power; means for determining a first value related to a standard deviation of the difference; means for determining a margin to account for an estimated amount of variation in the available transmit power, wherein the margin is determined based on the difference and the first value; means for predicting transmit power available at a future time instance for data transmissions; and means for estimating transmit power available for data transmissions for the future time period based on the predicted available transmit power at the future time instance and the margin. 40. An apparatus for scheduling data transmissions in a wireless communication system, the apparatus comprising: means for estimating an amount of variation in transmit power available for data transmissions; means for determining a first margin to account for the estimated amount of variation in the available transmit power; means for estimating transmit power available for data transmissions for a future time period based in part on the first margin; means for estimating an amount of variation in transmit power required for a particular data transmission; means for determining a second margin to account for the estimated amount of variation in the required transmit power; and means for estimating transmit power available for the particular data transmission based in part on the estimated available transmit power for data transmissions and the second margin. 41. An apparatus for scheduling data transmissions for a plurality of data users in a wireless communication system, the apparatus comprising: means for determining a first margin to account for an estimated amount of variation in transmit power available for data transmissions; means for estimating transmit power available for data transmissions for a future time period based in part on the first margin; means for determining a possible data rate for each data user based in part on the estimated available transmit power and a second margin determined for the data user; means for determining a priority index for each data user; and means for scheduling data transmissions for the plurality of data users based on the estimated available transmit power and the determined possible data rates and priority indices for the plurality of data users.
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