Allocating transmit power among two or more carriers assigned to a wireless communication device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04W-072/00
H04B-007/00
출원번호
US-0362435
(2009-01-29)
등록번호
US-8472967
(2013-06-25)
발명자
/ 주소
Ghosh, Donna
Chen, Qingxin
Lott, Christopher Gerard
Hu, Jun
Attar, Rashid Ahmed Akbar
Wang, Kang
출원인 / 주소
QUALCOMM Incorporated
대리인 / 주소
Ho, Eric
인용정보
피인용 횟수 :
2인용 특허 :
5
초록▼
Allocating transmit power among two or more carriers assigned to a wireless communication device is disclosed. In one aspect, a method of allocating transmit power includes determining a total amount of data transmit power available at the wireless communication device for data transmission over the
Allocating transmit power among two or more carriers assigned to a wireless communication device is disclosed. In one aspect, a method of allocating transmit power includes determining a total amount of data transmit power available at the wireless communication device for data transmission over the carriers. An efficiency metric is determined for each carrier based on the carrier's transmission characteristics and a portion of the total data transmit power is allocated to each carrier based on each carrier's efficiency metric.
대표청구항▼
1. A method of allocating transmit power among a plurality of carriers assigned to an access terminal, the method comprising: determining, at the access terminal, a total amount of data transmit power available at the access terminal for data transmission over the plurality of carriers;determining,
1. A method of allocating transmit power among a plurality of carriers assigned to an access terminal, the method comprising: determining, at the access terminal, a total amount of data transmit power available at the access terminal for data transmission over the plurality of carriers;determining, at the access terminal, an efficiency metric for each carrier of the plurality of carriers, wherein the efficiency metric is determined without a priori knowledge of a required signal-to-noise ratio (SNR); andallocating, at the access terminal, a first portion of the total amount of data transmit power to each carrier of the plurality of carriers based on the determined efficiency metric of the carrier. 2. The method of claim 1, wherein the efficiency metric indicates a level of interference and channel condition in a particular carrier. 3. The method of claim 2, wherein the allocation is inversely proportional to the level of interference in each carrier of the plurality of carriers. 4. The method of claim 1, wherein the efficiency metric is a measure of power used in transmitting each data bit on a particular carrier, the allocation being performed according to a water-filling algorithm. 5. The method of claim 4, wherein the water-filling algorithm allocates larger portions of the total amount of data transmit power to carriers of the plurality of carriers that use relatively less power in transmitting each data bit. 6. The method of claim 1, wherein the efficiency metric is based on an average transmit pilot power for a particular carrier or a filtered reverse activity bit for the particular carrier. 7. The method of claim 1, wherein the allocation is performed periodically. 8. The method of claim 1, further comprising allocating, at the access terminal, a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers as a power margin, wherein the power margin corresponds to an amount of power reserved by the access terminal for use in increasing the first portion of the total amount of data transmit power allocated to the one or more carriers in response to a reverse power control (RPC) command received by the one or more carriers, and wherein at least a portion of the power margin becomes available to the access terminal for use in data transmission via the one or more carriers after receiving the RPC command. 9. The method of claim 8, wherein each power margin is dynamically adjusted based on updated channel conditions. 10. The method of claim 8, further comprising: increasing the power margin by a first increment in response to a determination that a total transmit pilot power of a particular carrier is greater than a transmit power threshold; anddecreasing the power margin by a second increment in response to a determination that the total transmit pilot power of the particular carrier is not greater than the transmit power threshold, wherein the first increment is greater than the second increment. 11. The method of claim 10, wherein a ratio of the first increment to the second increment corresponds to a percentage of time that the total transmit pilot power of the particular carrier exceeds the transmit power threshold. 12. The method of claim 1, further comprising allocating, at the access terminal, at least a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers before allocating the first portion of the total amount of data transmit power to each carrier of the plurality of carriers, the second portion of the total amount of data transmit power being sufficient to sustain a particular data rate in each of the one or more carriers. 13. The method of claim 1, further comprising: determining a usage metric for each carrier of the plurality of carriers corresponding to an amount of power being used at the carrier;determining an amount of unused power across the plurality of carriers based on the first portion of the total amount of data transmit power allocated to each carrier of the plurality of carriers and the usage metric for each carrier of the plurality of carriers; andreallocating the unused power among the plurality of carriers. 14. The method of claim 11, wherein the amount of unused power is reallocated in a manner proportional to the allocation of the first portion of the total amount of data transmit power. 15. The method of claim 11, wherein reallocation is performed periodically. 16. The method of claim 1, further comprising calculating a particular data rate for data transmission over each carrier of the plurality of carriers based on the first portion of the total amount of data transmit power allocated to the carrier. 17. An access terminal for communicating with a communication network over a plurality of carriers assigned to the access terminal, the access terminal comprising: logic configured to determine, at the access terminal, a total amount of data transmit power available at the access terminal for data transmission over the plurality of carriers;logic configured to determine, at the access terminal, an efficiency metric for each carrier of the plurality of carriers, wherein the efficiency metric is determined without a priori knowledge of a required signal-to-noise ratio (SNR); andlogic configured to allocate, at the access terminal, a first portion of the total data transmit power to each carrier of the plurality of carriers based on the determined efficiency metric of the carrier. 18. The access terminal of claim 17, wherein the efficiency metric indicates a level of interference and a channel condition in a particular carrier. 19. The access terminal of claim 18, wherein the allocation is inversely proportional to the level of interference in each carrier of the plurality of carriers. 20. The access terminal of claim 17, wherein the efficiency metric is a measure of power used in transmitting each data bit on a particular carrier, the allocation being performed according to a water-filling algorithm. 21. The access terminal of claim 20, wherein the water-filling algorithm allocates larger portions of the total amount of data transmit power to carriers of the plurality of carriers that use relatively less power in transmitting each data bit. 22. The access terminal of claim 17, wherein the efficiency metric is based on an average transmit pilot power for a particular carrier or a filtered reverse activity bit for the particular carrier. 23. The access terminal of claim 17, wherein the allocation is performed periodically. 24. The access terminal of claim 17, further comprising logic configured to allocate, at the access terminal, a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers as a power margin, wherein the power margin corresponds to an amount of power reserved by the access terminal for use in increasing the first portion of the total amount of data transmit power allocated to the one or more carriers in response to a reverse power control (RPC) command received by the one or more carriers, and wherein at least a portion of the power margin becomes available to the access terminal for use in data transmission via the one or more carriers after receiving the RPC command. 25. The access terminal of claim 24, wherein each power margin is dynamically adjusted based on updated channel conditions. 26. The access terminal of claim 17, further comprising logic configured to allocate, at the access terminal, at least a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers before allocating the first portion of the total amount of data transmit power to each carrier of the plurality of carriers, the second portion of the total amount of data transmit power being sufficient to sustain a particular data rate in each of the one or more carriers. 27. The access terminal of claim 17, further comprising: logic configured to determine a usage metric for each carrier of the plurality of carriers corresponding to an amount of power being used at the carrier;logic configured to determine an amount of unused power across the plurality of carriers based on the first portion of the total amount of data transmit power in each carrier of the plurality of carriers and the usage metric for each carrier of the plurality of carriers; andlogic configured to reallocate the amount of unused power among the plurality of carriers. 28. The access terminal of claim 27, wherein the unused power is reallocated in a manner proportional to the allocation of the first portion of the total amount of data transmit power. 29. The access terminal of claim 27, wherein reallocation is performed periodically. 30. The access terminal of claim 17, further comprising logic configured to calculate a particular data rate for data transmission over each carrier of the plurality of carriers based on the first portion of the total amount of data transmit power allocated to the carrier. 31. An access terminal for communicating with a communication network over a plurality of carriers assigned to the access terminal, the access terminal comprising: means for determining, at the access terminal, a total amount of data transmit power available at the access terminal for data transmission over the plurality of carriers;means for determining, at the access terminal, an efficiency metric for each carrier of the plurality of carriers, wherein the efficiency metric is determined without a priori knowledge of a required signal-to-noise ratio (SNR); andmeans for allocating, at the access terminal, a first portion of the total data transmit power to each carrier of the plurality of carriers based on the determined efficiency metric of the carrier. 32. The access terminal of claim 31, wherein the efficiency metric indicates a level of interference and channel condition in a particular carrier. 33. The access terminal of claim 32, wherein the allocation is inversely proportional to the level of interference in each carrier of the plurality of carriers. 34. The access terminal of claim 31, wherein the efficiency metric is a measure of power used in transmitting each data bit on a particular carrier, the allocation being performed according to a water-filling algorithm. 35. The access terminal of claim 34, wherein the water-filling algorithm allocates larger portions of the total amount of data transmit power to carriers of the plurality of carriers that use relatively less power in transmitting each data bit. 36. The access terminal of claim 31, wherein the efficiency metric is based on an average transmit pilot power for a particular carrier or a filtered reverse activity bit for the particular carrier. 37. The access terminal of claim 31, wherein the allocation is performed periodically. 38. The access terminal of claim 31, further comprising means for allocating, at the access terminal, a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers as a power margin, wherein the power margin corresponds to an amount of power reserved by the access terminal for use in increasing the first portion of the total amount of data transmit power allocated to the one or more carriers in response to a reverse power control (RPC) command received by the one or more carriers, and wherein at least a portion of the power margin becomes available to the access terminal for use in data transmission via the one or more carriers after receiving the RPC command. 39. The access terminal of claim 38, wherein each power margin is dynamically adjusted based on updated channel conditions. 40. The access terminal of claim 31, further comprising means for allocating, at the access terminal, at least a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers before allocating the first portion of the total amount of data transmit power to each carrier of the plurality of carriers, the second portion of the total amount of data transmit power being sufficient to sustain a particular data rate in each of the one or more carriers. 41. The access terminal of claim 31, further comprising: means for determining a usage metric for each carrier of the plurality of carriers corresponding to an amount of power being used at the carrier;means for determining an amount of unused power across the plurality of carriers based on the first portion of the total amount of data transmit power allocated to each carrier of the plurality of carriers and the usage metric for each carrier of the plurality of carriers; andmeans for reallocating the unused power among the plurality of carriers. 42. The access terminal of claim 41, wherein the unused power is reallocated in a manner proportional to the allocation of the first portion of the total amount of data transmit power. 43. The access terminal of claim 41, wherein reallocation is performed periodically. 44. The wireless communication device of claim 31, further comprising means for calculating a particular data rate for data transmission over each carrier of the plurality of carriers based on the first portion of the total amount of data transmit power allocated to the carrier. 45. A non-transitory computer readable medium comprising code, which, when executed by a processor, causes the processor to perform operations for allocating transmit power among a plurality of carriers assigned to an access terminal, the computer readable medium comprising: code for determining, at the access terminal, a total amount of data transmit power available at the access terminal for data transmission over the plurality of carriers;code for determining, at the access terminal, an efficiency metric for each carrier of the plurality of carriers, wherein the efficiency metric is determined without a priori knowledge of a required signal-to-noise ratio (SNR); andcode for allocating, at the access terminal, a first portion of the total amount of data transmit power to each carrier of the plurality of carriers based on the determined efficiency metric of the carrier. 46. The computer readable medium of claim 45, wherein the efficiency metric indicates a level of interference and channel condition in a particular carrier. 47. The computer readable medium of claim 46, wherein the allocation is inversely proportional to the level of interference in each carrier of the plurality of carriers. 48. The computer readable medium of claim 45, wherein the efficiency metric is a measure of power used in transmitting each data bit on a particular carrier, the allocation being performed according to a water-filling algorithm. 49. The computer readable medium of claim 48, wherein the water-filling algorithm allocates larger portions of the total amount of data transmit power to carriers of the plurality of carriers that use relatively less power in transmitting each data bit. 50. The computer readable medium of claim 45, wherein the efficiency metric is based on an average transmit pilot power for a particular carrier or a filtered reverse activity bit for the particular carrier. 51. The computer readable medium of claim 45, wherein the allocation is performed periodically. 52. The computer readable medium of claim 45, further comprising code for allocating, at the access terminal, a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers as a power margin, wherein the power margin corresponds to an amount of power reserved by the access terminal for use in increasing the first portion of the total amount of data transmit power allocated to the one or more carriers in response to a reverse power control (RPC) command received by the one or more carriers, and wherein at least a portion of the power margin becomes available to the access terminal for use in data transmission via the one or more carriers after receiving the RPC command. 53. The computer readable medium of claim 52, wherein each power margin is dynamically adjusted based on updated channel conditions. 54. The computer readable medium of claim 45, further comprising code for allocating, at the access terminal, at least a second portion of the total amount of data transmit power to one or more carriers of the plurality of carriers before allocating the first portion of the total data transmit power to each carrier of the plurality of carriers, the second portion of the total amount of data transmit power being sufficient to sustain a particular data rate in each of the one or more carriers. 55. The computer readable medium of claim 45, further comprising: code for determining a usage metric for each carrier of the plurality of carriers corresponding to an amount of power being used at the carrier;code for determining an amount of unused power across the plurality of carriers based on the first portion of the total amount of data transmit power allocated to each carrier and the usage metric for each carrier of the plurality of carriers; andcode for reallocating the unused power among the plurality of carriers. 56. The computer readable medium of claim 55, wherein the unused power is reallocated in a manner proportional to the allocation of the first portion of the total amount of data transmit power. 57. The computer readable medium of claim 55, wherein reallocation is performed periodically. 58. The computer readable medium of claim 45, further comprising code for calculating a particular data rate for data transmission over each carrier of the plurality of carriers based on the first portion of the total amount of data transmit power allocated to the carrier.
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이 특허에 인용된 특허 (5)
Kenney, Thomas J.; Tran, Jean-Marie, Apparatus, and associated method, for facilitating selection of power levels at which to communicate data in a radio communication system.
Kenney, Thomas J; Tran, Jean-Marie, Apparatus, and associated method, for facilitating selection of power levels at which to communicate data in a radio communication system.
Shin, Sung-Hyuk; Levy, Joseph S.; Pan, Kyle Jung-Lin; Pietraski, Philip J.; Zhang, Guodong, Method and apparatus for power control of sounding reference signal (SRS) transmission.
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