Closed-loop rate control for a multi-channel communication system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-001/38
H04L-027/00
H04L-023/00
H04L-027/28
H04L-007/06
출원번호
US-0448801
(2003-05-31)
등록번호
US-8218609
(2012-07-10)
발명자
/ 주소
Walton, Jay Rodney
Wallace, Mark S.
Ketchum, John W.
Howard, Steven J.
출원인 / 주소
Qualcomm Incorporated
대리인 / 주소
Qualcomm Patent Group
인용정보
피인용 횟수 :
21인용 특허 :
245
초록▼
Closed-loop rate control for data transmission on multiple parallel channels is provided. An inner loop estimates the channel conditions for a communication link and selects a suitable data rate for each of the multiple parallel channels based on the channel estimates. For each parallel channel, a r
Closed-loop rate control for data transmission on multiple parallel channels is provided. An inner loop estimates the channel conditions for a communication link and selects a suitable data rate for each of the multiple parallel channels based on the channel estimates. For each parallel channel, a received SNR is computed based on the channel estimates, an operating SNR is computed based on the received SNR and an SNR offset for the parallel channel, and the data rate is selected based on the operating SNR for the parallel channel and a set of required SNRs for a set of data rates supported by the system. An outer loop estimates the quality of data transmissions received on the multiple parallel channels and adjusts the operation of the inner loop. For example, the SNR offset for each parallel channel is adjusted based on the status of packets received on that parallel channel.
대표청구항▼
1. A method of transmitting data on a plurality of parallel channels in a wireless communication system, comprising: in a first processing loop, adjusting at least one adjustment parameter for each of a plurality of parallel channels based on errors detected in received packets;in a second processin
1. A method of transmitting data on a plurality of parallel channels in a wireless communication system, comprising: in a first processing loop, adjusting at least one adjustment parameter for each of a plurality of parallel channels based on errors detected in received packets;in a second processing loop, determining channel estimates for each of the plurality of parallel channels, and selecting a transmission mode for each of the plurality of parallel channels based on an aggregation of the channel estimates and the at least one adjustment parameter for the parallel channel, wherein the selected transmission mode for each of the plurality of parallel channels determines a data rate for the parallel channel; andsending the selected transmission mode for each of the plurality of parallel channels to a transmitting entity, wherein data for each of the plurality of parallel channels is processed at the transmitting entity in accordance with the transmission mode selected for that parallel channel, and is transmitted through each parallel channel at the data rate determined by the transmission mode selected for the parallel channel. 2. The method of claim 1, wherein the adjustment parameter includes at least one signal to noise ratio offset. 3. The method of claim 2, wherein adjusting the at least one adjustment parameter includes determining the at least one adjustment parameter based, at least in part, on detected packet errors. 4. The method of claim 1, wherein the channel estimates include at least one signal to noise ratio. 5. An apparatus for transmitting data on a plurality of parallel channels in a wireless communication system, comprising: a means for performing a first processing loop to adjust at least one adjustment parameter for each of a plurality of parallel channels based on errors detected in received packets;a means for performing a second processing loop to determine channel estimates for each of the plurality of parallel channels, and select a transmission mode for each of the plurality of parallel channels based on an aggregation of the channel estimates and the at least one adjustment parameter for the parallel channel, wherein the selected transmission mode for each of the plurality of parallel channels determines a data rate for the parallel channel; anda means for sending the selected transmission mode for each of the plurality of parallel channels to a transmitting entity, wherein data for each of the plurality of parallel channels is processed at the transmitting entity in accordance with the transmission mode selected for the parallel channel, and is transmitted through each parallel channel at the data rate determined by the transmission mode selected for the parallel channel. 6. The apparatus of claim 5, wherein the adjustment parameter includes at least one signal to noise ratio offset. 7. The apparatus of claim 6, wherein the means for performing the first processing loop to adjust the at least one adjustment parameter is configured to adjust the at least one adjustment parameter based, at least in part, on detected packet errors. 8. The apparatus of claim 5, wherein the channel estimates include at least one signal to noise ratio. 9. A memory unit having instructions stored thereon for transmitting data on a plurality of parallel channels in a wireless communication system, the instructions, when executed by one or more processors, directing the one or more processors to perform the steps of: performing a first processing loop to adjust at least one adjustment parameter for each of a plurality of parallel channels based on errors detected in received packets;performing a second processing loop to determine channel estimates for each of the plurality of parallel channels, and select a transmission mode for each of the plurality of parallel channels based on an aggregation of the channel estimates and the at least one adjustment parameter for the parallel channel, wherein the selected transmission mode for each of the plurality of parallel channels determines a data rate for the parallel channel; andsending the selected transmission mode for each of the plurality of parallel channels to a transmitting entity, wherein data for each of the plurality of parallel channels is processed at the transmitting entity in accordance with the transmission mode selected for the parallel channel, and is transmitted through each parallel channel at the data rate determined by the transmission mode selected for the parallel channel. 10. The memory unit of claim 9, wherein the adjustment parameter includes at least one signal to noise ratio offset. 11. The memory unit of claim 10, wherein the instructions for performing the first processing loop comprises instructions for adjusting the at least one adjustment parameter based, at least in part, on detected packet errors. 12. The memory unit of claim 9, wherein the channel estimates include at least one signal to noise ratio. 13. An apparatus for transmitting data on a plurality of parallel channels in a wireless communication system, comprising: at least one processor configured to, perform a first processing loop to adjust at least one adjustment parameter for each of a plurality of parallel channels based on errors detected in received packets; andperform a second processing loop to determine channel estimates for each of the plurality of parallel channels, and select a transmission mode for each of the plurality of parallel channels based on an aggregation of the channel estimates and the at least one adjustment parameter for the parallel channel, wherein the selected transmission mode for each of the plurality of parallel channels determines a data rate for the parallel channel, andsend the selected transmission mode for each of the plurality of parallel channels to a transmitting entity, wherein data for each of the plurality of parallel channels is processed at the transmitting entity in accordance with the transmission mode selected for the parallel channel, and is transmitted through each parallel channel at the data rate determined by the transmission mode selected for the parallel channel; andat least one memory coupled to the processor. 14. The apparatus of claim 13, wherein the adjustment parameter includes at least one signal to noise ratio offset. 15. The apparatus of claim 14, wherein the processor is configured to adjust the at least one adjustment parameter based, at least in part, on detected packet errors. 16. The apparatus of claim 13, wherein the channel estimates include at least one signal to noise ratio.
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