Method and apparatus for signal quality loss compensation in multiplexing transmission systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-007/216
H04J-009/00
H04L-001/00
H04B-007/06
H04B-017/00
H04L-001/20
H04L-001/06
출원번호
US-0138724
(2005-05-26)
등록번호
US-9130706
(2015-09-08)
발명자
/ 주소
Grant, Stephen J.
Cheng, Jung-fu Thomas
Molnar, Karl J.
Wang, Yi-Pin Eric
Ramesh, Rajaram
출원인 / 주소
Unwired Planet, LLC
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
4인용 특허 :
10
초록▼
A wireless communication receiver receiving a multiplexed signal comprising two or more signal streams calculates a received signal quality for the multiplexed signal as a function of stream-specific received signal qualities, determines one or more loss parameters indicative of variations in the st
A wireless communication receiver receiving a multiplexed signal comprising two or more signal streams calculates a received signal quality for the multiplexed signal as a function of stream-specific received signal qualities, determines one or more loss parameters indicative of variations in the stream-specific received signal qualities, and generates quality feedback based on such information. In turn, a transmitter controls the selection of one or more transmission parameters of the multiplexed signal based on the quality feedback, such that its transmit link adaptations account for the losses in received signal quality at the receiver arising from the variations in the stream-specific received signal qualities. The quality feedback may include calculated loss values, or parameter/penalties that permit loss calculation, and the method applies to both code multiplexing and spatial multiplexing.
대표청구항▼
1. A method of feeding back received signal quality information, the method comprising: receiving, at a receiver, a multiplexed signal including two or more signal streams;calculating, at the receiver, a received signal quality for the multiplexed signal as a function of two or more different stream
1. A method of feeding back received signal quality information, the method comprising: receiving, at a receiver, a multiplexed signal including two or more signal streams;calculating, at the receiver, a received signal quality for the multiplexed signal as a function of two or more different stream-specific received signal qualities determined for the multiplexed signal;determining, at the receiver, a loss parameter that represents a loss in the received signal quality for the multiplexed signal arising from the two or more different stream-specific received signal qualities, wherein the determined loss parameter is useable to compensate the calculated received signal quality for the loss;generating, at the receiver, received signal quality information including the calculated received signal quality, or a quantized version thereof, and the loss parameter; andtransmitting, from the receiver, the received signal quality information as feedback,wherein determining the loss parameter comprises expressing effective losses in the received signal quality arising from the two or more different stream-specific received signal qualities as loss functions of multiplexed signal coding rate and generating the loss parameter as a set of parameters corresponding to a best-fitting one of the loss functions. 2. The method of claim 1, wherein calculating the received signal quality comprises calculating a mode-specific received signal quality for each of one or more multiplexing modes defined for the multiplexed signal. 3. The method of claim 2, wherein determining the loss parameter comprises, for each mode-specific received signal quality, determining one or more coding rate-dependent loss parameters. 4. The method of claim 1, wherein calculating the received signal quality comprises calculating a Channel Quality Indicator (CQI) value for each of one or more multiplexing modes associated with the multiplexed signal, and wherein determining the loss parameter comprises determining one or more coding rate-dependent loss parameters for each CQI, such that the received signal quality information comprises mode-specific CQI values and corresponding coding rate-dependent loss parameters. 5. The method of claim 1, wherein the multiplexed signal comprises a spatially multiplexed signal transmitted from a different number of transmit antennas in each of one or more spatial multiplexing modes, and wherein calculating the received signal quality comprises calculating a received signal quality for a best set of transmit antennas in each spatial multiplexing mode. 6. The method of claim 5, wherein determining the loss parameter comprises, for each spatial multiplexing mode, determining one or more coding rate-dependent loss parameters. 7. The method of claim 1, wherein calculating the received signal quality comprises calculating an average signal quality from the stream-specific received signal qualities. 8. The method of claim 7, wherein determining the loss parameter comprises determining a maximum spread of the stream-specific signal qualities, such that the received signal quality information indicates the average received signal quality and the maximum spread. 9. The method of claim 7, wherein determining the loss parameter comprises determining a variation statistic characterizing variations between the stream-specific signal qualities, such that the received signal quality information indicates the average received signal quality and the variation statistic. 10. The method of claim 9, wherein the variation statistic comprises one or more of a variance of the stream-specific received signal qualities, a standard deviation of the stream-specific received signal qualities, and a maximum spread of the stream-specific received signal qualities. 11. The method of claim 1, wherein determining the loss parameter comprises determining a loss value representing an effective reduction in the received signal quality arising from the two or more different stream-specific received signal qualities. 12. The method of claim 11, wherein determining the loss value comprises determining the loss value from a loss equation or data table maintained at the receiver that models signal quality loss as one or more coding rate-dependent functions of the received signal quality of the multiplexed signal. 13. The method of claim 1, wherein calculating the received signal quality comprises determining a set of best transmit antennas for each of one or more spatial multiplexing modes associated with the multiplexed signal, and calculating a channel quality indicator value for each spatial multiplexing mode based on the stream-specific received signal qualities of the multiplexed signal corresponding to the best set of transmit antennas. 14. The method of claim 13, wherein determining the loss parameter comprises determining one or more loss parameters for each spatial multiplexing mode using the stream-specific received signal qualities corresponding to the best set of antennas for that spatial multiplexing mode, and wherein generating the received signal quality information comprises generating the received signal quality information as channel quality indicators and corresponding loss parameters calculated for the spatial multiplexing modes. 15. The method of claim 1, wherein the receiver comprises a Wideband Code Division Multiple Access (W-CDMA) receiver, and wherein the multiplexed signal comprises a spatially multiplexed High Speed Downlink Shared Channel (HS-DSCH) signal, and wherein the received signal quality information comprises a Channel Quality Indicator (CQI) value and one or more coding rate-dependent loss parameters, for each of one or more spatial multiplexing modes associated with the spatially multiplexed HS-DSCH signal. 16. A method of compensating for losses in received signal quality experienced by a receiver, the method comprising: transmitting, from a transmitter, a multiplexed signal including two or more signal streams;receiving, at the transmitter, received signal quality information as feedback from the receiver, the received signal quality information including a received signal quality for the multiplexed signal, or a quantized version thereof, and a loss parameter that represents a loss in the received signal quality for the multiplexed signal arising from two or more different stream-specific received signal qualities of the multiplexed signal, wherein the loss parameter is useable to compensate the received signal quality for the loss; andcontrolling, at the transmitter, the selection of one or more transmission parameters of the multiplexed signal based on the received signal quality and the loss parameter,wherein the loss parameter expresses effective losses in the received signal quality arising from the two or more different stream-specific received signal qualities as loss functions of multiplexed signal coding rate and includes a set of parameters corresponding to a best-fitting one of the loss functions. 17. The method of claim 16, wherein receiving the signal quality information comprises receiving a received signal quality and a loss parameter for each of one or more multiplexing modes associated with the multiplexed signal. 18. The method of claim 17, wherein controlling the selection of the one or more transmission parameters comprises: calculating coding rate-dependent signal quality losses for the multiplexed signal in each multiplexing mode based on the loss parameter received for that multiplexing mode;identifying a highest coding rate supportable in each multiplexing mode based on the coding-rate-dependent signal quality losses calculated for that multiplexing mode; andselecting a multiplexing mode and coding rate to use for the multiplexed signal based on comparing the highest coding rates between the multiplexing modes. 19. The method of claim 16, wherein receiving the signal quality information comprises receiving mode-specific received signal qualities and corresponding mode-specific loss parameters for each of one or more multiplexing modes associated with the multiplexed signal. 20. The method of claim 19, wherein each mode-specific received signal quality comprises a received signal quality indicator calculated as a function of the stream-specific received signal qualities for the multiplexed signal for the corresponding multiplexing mode, and wherein each corresponding loss parameter indicates a difference between those stream-specific received signal qualities. 21. The method of claim 20, wherein controlling the selection of the one or more transmission parameters comprises determining effective received signal qualities in each multiplexing mode based on the mode-specific received signal quality indicator and a number of coding rate-dependent signal quality losses calculated from the mode-specific loss parameter and coding-rate dependent signal quality loss modeling information, and selecting one of the multiplexing modes and coding rates based on comparing the effective received signal qualities to coding-rate dependent signal quality thresholds. 22. The method of claim 16, wherein the loss parameter comprises a statistical value indicating variations between the stream-specific received signal qualities, and wherein controlling the selection of the one or more transmission parameters comprises calculating a loss value from the loss parameter, calculating an effective received signal quality from the loss value and the received signal quality, and controlling the selection of the one or more transmission parameters based on the effective received signal quality. 23. The method of claim 22, wherein the statistical value comprises a maximum spread of the stream-specific received signal qualities, a standard deviation of the stream-specific received signal qualities, or a variance of the stream-specific received signal qualities. 24. The method of claim 16, wherein the loss functions model signal quality losses as a function of different stream-specific received signal qualities, and wherein controlling the selection of the one or more transmission parameters comprises calculating a loss value from an identified loss curve or function, calculating an effective received signal quality from the loss value and the received signal quality, and controlling the selection of the one or more transmission parameters based on the effective received signal quality. 25. A multiplexing transmitter for use in a wireless communication network comprising: radio transmission circuits configured to transmit a multiplexed signal including two or more signal streams from the multiplexing transmitter to a receiver;one or more interface circuits configured to receive signal quality information as feedback from a receiver, the received signal quality information including a received signal quality for the multiplexed signal, or a quantized version thereof, and a loss parameter that represents a loss in the received signal quality for the multiplexed signal arising from two or more different stream-specific received signal qualities of the multiplexed signal, wherein the loss parameter is useable to compensate the received signal quality for the loss; anda control circuit configured to control the selection of one or more transmission parameters of the multiplexed signal based on the received signal quality and the loss parameter,wherein the loss parameter expresses effective losses in the received signal quality arising from the two or more different stream-specific received signal qualities as loss functions of multiplexed signal coding rate and includes a set of parameters corresponding to a best-fitting one of the loss functions. 26. The multiplexing transmitter of claim 25, wherein the control circuit includes or is associated with a calculation circuit that is configured to determine an effective received signal quality based on estimating a loss in the received signal quality arising at the receiver from the two or more different stream-specific received signal qualities of the multiplexed signal. 27. The multiplexing transmitter of claim 25, wherein the received signal quality and the loss parameter comprise a received signal quality and a loss parameter for each of one or more multiplexing modes associated with the multiplexed signal. 28. The multiplexing transmitter of claim 27, wherein the control circuit is configured to control the selection of the one or more transmission parameters by: calculating coding rate-dependent signal quality losses for the multiplexed signal in each multiplexing mode based on the loss parameter received for that multiplexing mode;identifying a highest coding rate supportable in each multiplexing mode based on the coding-rate-dependent signal quality losses calculated for that multiplexing mode; andselecting a multiplexing mode and coding rate to use for the multiplexed signal based on comparing the highest coding rates between the multiplexing modes. 29. The multiplexing transmitter of claim 25, wherein the received signal quality and the loss parameter comprise mode-specific received signal qualities and corresponding mode-specific loss parameters for each of one or more multiplexing modes associated with the multiplexed signal. 30. The multiplexing transmitter of claim 29, wherein each mode-specific received signal quality comprises a received signal quality indicator calculated as a function of the stream-specific received signal qualities for the multiplexed signal for the corresponding multiplexing mode, and wherein each corresponding loss parameter indicates a difference between the stream-specific received signal qualities. 31. The multiplexing transmitter of claim 30, wherein the control circuit is configured to control the selection of the one or more transmission parameters by determining effective received signal qualities in each multiplexing mode based on the mode-specific received signal quality indicator and a number of coding rate-dependent signal quality losses calculated from the mode-specific loss parameter and coding-rate dependent signal quality loss modeling information, and selecting one of the multiplexing modes and coding rates based on comparing the effective received signal qualities to coding-rate dependent signal quality thresholds. 32. The multiplexing transmitter of claim 25, wherein the loss parameter comprises a statistical value indicating variations between the stream-specific received signal qualities, and wherein the control circuit is configured to control the selection of the one or more transmission parameters by calculating a loss value from the loss parameter, calculating an effective received signal quality from the loss value and the received signal quality, and controlling the selection of the one or more transmission parameters based on the effective received signal quality. 33. The multiplexing transmitter of claim 32, wherein the statistical value comprises a maximum spread of the stream-specific received signal qualities, a standard deviation of the stream-specific received signal qualities, or a variance of the stream-specific received signal qualities. 34. The multiplexing transmitter of claim 25, wherein the loss functions model signal quality losses as a function of variations between the stream-specific received signal qualities, and wherein the control circuit is configured to control the selection of the one or more transmission parameters by calculating a loss value from an identified loss curve or function, calculating an effective received signal quality from the loss value and the received signal quality, and controlling the selection of the one or more transmission parameters based on the effective received signal quality. 35. A wireless communication receiver comprising one or more processing circuits configured to: receive a multiplexed signal including two or more signal streams;calculate a received signal quality for the multiplexed signal as a function of two or more different stream-specific received signal qualities determined for the multiplexed signal;determine a loss parameter that represents a loss in the received signal quality for the multiplexed signal arising from the two or more different stream-specific received signal qualities, wherein the determined loss parameter is useable to compensate the calculated received signal quality for the loss;generate received signal quality information including the calculated received signal quality, or a quantized version thereof, and the loss parameter; andtransmit the received signal quality information as feedback,wherein the one or more processing circuits are configured to determine the loss parameter by expressing effective losses in the received signal quality arising from the two or more different stream-specific received signal qualities as loss functions of multiplexed signal coding rate and generating the loss parameter as a set of parameters corresponding to a best-fitting one of the loss functions. 36. The receiver of claim 35, wherein the one or more processing circuits are configured to calculate the received signal quality as a mode-specific received signal quality for each of one or more multiplexing modes defined for the multiplexed signal. 37. The receiver of claim 36, wherein the one or more processing circuits are configured to determine the loss parameter as one or more coding rate-dependent loss parameters for each mode-specific received signal quality, based on the two or more different stream-specific received signal qualities of the multiplexed signal in the corresponding multiplexing mode. 38. The receiver of claim 37, wherein the multiplexed signal comprises a spatially multiplexed signal transmitted from a different number of transmit antennas in each multiplexing mode, and wherein the one or more processing circuits are configured to calculate the mode-specific received signal qualities by calculating the received signal quality for a best set of transmit antennas in each multiplexing mode. 39. The receiver of claim 35, wherein the one or more processing circuits are configured to calculate the received signal quality by calculating an average signal quality from the two or more different stream-specific received signal qualities. 40. The receiver of claim 39, wherein the one or more processing circuits are configured to determine the loss parameter by determining a maximum spread of the variations between the stream-specific signal qualities, such that the received signal quality information indicates the average received signal quality and the maximum spread. 41. The receiver of claim 39, wherein the one or more processing circuits are configured to determine the loss parameter by determining a variation statistic characterizing variations between the stream-specific received signal qualities, such that the received signal quality information indicates the average received signal quality and the variation statistic. 42. The receiver of claim 35, wherein the one or more processing circuits are configured to determine the loss parameter by determining a loss value representing an effective reduction in the received signal quality arising because of the two or more different stream-specific received signal qualities. 43. The receiver of claim 42, wherein the one or more processing circuits are configured to determine the loss value by determining the loss value from a loss equation or data table maintained at the receiver that models signal quality loss as one or more coding rate-dependent functions of the received signal quality of the multiplexed signal. 44. The receiver of claim 35, wherein the one or more processing circuits are configured to determine the loss parameter by determining a set of best transmit antennas for each of one or more spatial multiplexing modes associated with the multiplexed signal, and determining a loss parameter for each spatial multiplexing mode using the stream-specific received signal qualities corresponding to a best set of antennas for that spatial multiplexing mode. 45. The receiver of claim 44, wherein the one or more processing circuits are configured to generate the received signal quality information as individual channel quality indicators corresponding to respective ones of the best transmit antennas for each spatial multiplexing mode, and as corresponding loss parameters for each spatial multiplexing mode. 46. The receiver of claim 35, wherein the receiver comprises a Wideband Code Division Multiple Access (W-CDMA) receiver, and wherein the multiplexed signal comprises a spatially multiplexed High Speed Downlink Shared Channel (HS-DSCH) signal, and wherein the received signal quality information comprises a Channel Quality Indicator (CQI) value and one or more coding rate-dependent loss parameters, for each of one or more spatial multiplexing modes associated with the spatially multiplexed HS-DSCH signal. 47. The receiver of claim 35, wherein the one or more processing circuits are configured to calculate the received signal quality by calculating a Channel Quality Indicator (CQI) value for each of one or more multiplexing modes associated with the multiplexed signal, and wherein determining the loss parameter comprises determining one or more coding rate-dependent loss parameters for each CQI, such that the received signal quality information comprises mode-specific CQI values and corresponding coding rate-dependent loss parameters. 48. The receiver of claim 38, wherein the one or more processing circuits are configured to determine the loss parameter, for each spatial multiplexing mode, by determining one or more coding rate-dependent loss parameters. 49. The receiver of claim 41, wherein the variation statistic comprises one or more of a variance of the stream-specific received signal qualities, a standard deviation of the stream-specific received signal qualities, and a maximum spread of the stream-specific received signal qualities. 50. The receiver of claim 38, wherein the one or more processing circuits are configured to determine the loss parameter by determining one or more loss parameters for each spatial multiplexing mode using the stream-specific received signal qualities corresponding to the best set of antennas for that spatial multiplexing mode, and wherein generating the received signal quality information comprises generating the received signal quality information as a channel quality indicator and corresponding loss parameters calculated for that spatial multiplexing mode. 51. The method of claim 16, comprising determining an effective received signal quality based on estimating a loss in the received signal quality arising at the receiver from the two or more different stream-specific received signal qualities of the multiplexed signal.
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