Method and system for data and voice transmission over shared and dedicated channels
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-015/00
H04K-001/00
H04L-027/30
H04L-027/26
출원번호
US-0748315
(2000-12-22)
발명자
/ 주소
Willenegger,Serge
출원인 / 주소
Qualcomm, Incorporated
인용정보
피인용 횟수 :
6인용 특허 :
6
초록▼
In one disclosed embodiment, data information is stored in a buffer in a transmitter. The data information is transmitted on a shared channel and control information for recovering the associated data information is transmitted on a dedicated channel. The shared and dedicated channels can be, for ex
In one disclosed embodiment, data information is stored in a buffer in a transmitter. The data information is transmitted on a shared channel and control information for recovering the associated data information is transmitted on a dedicated channel. The shared and dedicated channels can be, for example, different portions of the frequency band. The control information can include a spreading factor used to spread the data at the transmitter. For example, the spreading factor can be the length of the Walsh function orthogonal coding used to spread the data. The control information is received over the dedicated channel before the associated data information is received over the shared channel. The control information is then used to recover the associated data information. For example, knowing the spreading factor from the control information, the correct Walsh function can be selected to de-spread, i.e. to Walsh de-cover, the data information.
대표청구항▼
What is claimed is: 1. A method, comprising: storing a first frame in a buffer that delays transmission of the first frame on a shared downlink channel, wherein the first frame comprises data information; transmitting a second frame on a dedicated downlink channel, said second frame comprising at
What is claimed is: 1. A method, comprising: storing a first frame in a buffer that delays transmission of the first frame on a shared downlink channel, wherein the first frame comprises data information; transmitting a second frame on a dedicated downlink channel, said second frame comprising at least one slot comprising control information associated with the first frame for recovering said first frame; and then transmitting said first frame on the shared downlink channel such that transmission of said first frame is delayed with respect to transmission of the second frame. 2. The method of claim 1, further comprising: receiving said second frame over said dedicated channel; receiving said first frame over said shared channel, wherein the second frame is received before receiving said first frame over said shared channel; and recovering said first frame using said control information. 3. The method of claim 1, wherein said control information comprises an indicator comprising spreading factor information for recovering said first frame, and wherein transmission of said first frame is delayed with respect to transmission of the second frame by a duration that allows the spreading factor information to be extracted from the indicator before reception of said first frame. 4. The method of claim 3, when said first frame is received dispreading immediately begins and Walsh decovering immediately begins using the spreading factor information received before receipt of the first frame. 5. The method of claim 1, wherein said slot further comprises voice information, power control information, and pilot information. 6. The method of claim 1, wherein the first frame is delayed with respect to the second frame such that an end of the second frame is non-overlapping with a beginning of the first frame such that the beginning of the first frame is received after the end of the second frame. 7. The method of claim 1 wherein the control information of the second frame corresponds to the data information in the first frame, and wherein the delay between the second frame and the first frame corresponds to a plurality of slot durations. 8. A system, comprising: a base station comprising: a buffer for storing a first frame to delay transmission of the first frame on a shared downlink channel, wherein the first frame comprises data information; and a transmitter for transmitting a second frame on a dedicated downlink channel, said second frame comprising at least one slot comprising control information associated with the first frame for recovering said first frame, and then transmitting said first frame on the shared downlink channel such that transmission of said first frame is delayed with respect to transmission of the second frame. 9. The system of claim 8, further comprising: a receiver for receiving said second frame over said dedicated channel, and for receiving said first frame over said shared channel, wherein transmission of said first frame is delayed with respect to transmission of the second frame by a duration that allows the second frame to be received before receiving said first frame over said shared channel, wherein the receiver comprises: means for recovering said first frame using said control information. 10. The system of claim 8, wherein said control information comprises an indicator comprising spreading factor information for recovering said first frame, and wherein the receiver further comprises: a filter that extracts the spreading factor information from the indicator before reception of said first frame. 11. The system of claim 10, wherein the receiver further comprises: a despreader that directly receives the first frame from the filter, wherein the despreader immediately begins dispreading when said first frame is received; and a Walsh decoverer, coupled to the despreader, that receives the spreading factor information from the filter before receipt of the first frame. 12. The system of claim 8, wherein said slot further comprises voice information, power control information, and pilot information. 13. The system of claim 8, wherein the first frame is delayed with respect to the second frame such that an end of the second frame is non-overlapping with a beginning of the first frame such that the beginning of the first frame is received after the end of the second frame. 14. The system of claim 8, wherein the control information of the second frame corresponds to the data information in the first frame, and wherein the delay between the second frame and the first frame corresponds to a plurality of slot durations. 15. A base station, comprising: a buffer for storing a first frame to delay transmission of the first frame on a shared downlink channel, wherein the first frame comprises data information; and a transmitter for transmitting a second frame on a dedicated downlink channel, said second frame comprising at least one slot comprising control information associated with the first frame for recovering said first frame, and then transmitting said first frame on the shared downlink channel such that transmission of said first frame is delayed with respect to transmission of the second frame. 16. The base station of claim 15, wherein said slot further comprises voice information, power control information, and pilot information. 17. The base station of claim 15, wherein the first frame is delayed with respect to the second frame such that an end of the second frame is non-overlapping with a beginning of the first frame such that the beginning of the first frame is received after the end of the second frame. 18. The base station of claim 15, wherein the control information of the second frame corresponds to the data information in the first frame, and wherein the delay between the second frame and the first frame corresponds to a plurality of slot durations. 19. The base station of claim 15, wherein the data information comprises symbol-level data information, and further comprising: a multiple access control unit that receives a communication signal comprising data information from the shared channel and control information from the dedicated channel; wherein the buffer stores the symbol level data information thereby creating a delay between the symbol-level data information and the control information; an encoder, coupled to the buffer, that generates first code symbols based on the control information, and then after the delay generates second code symbols based on the symbol-level data information that corresponds to the control information, wherein the delay corresponds to the time required to recover spreading factor information; an interleaver, coupled to the encoder, that generates first and second interleaved code symbols based on the first code symbols and the second code symbols, respectively; a scrambler, coupled to the interleaver, that scrambles the first and second interleaved code symbols and generates first and second scrambled code symbols, respectively; a Walsh coverer, coupled to the scrambler, that receives the spreading factor information and the first and second scrambled code symbols, and uses the spreading factor information to select an appropriate Walsh function to Walsh cover the first scrambled code symbols and generate spread data information; and a PN spreader, coupled between the Walsh cover and the transmitter, that further spreads the spread data information and generates the first data frame. 20. A mobile station, comprising: an input for receiving a first frame over a shared channel and a second frame over a dedicated channel, wherein the first frame comprises data information, and said second frame comprises at least one slot comprising control information associated with the first frame for recovering said first frame, wherein said first frame is delayed with respect to the second frame such that the second frame is received before receiving said first frame over said shared channel; and means for recovering said first frame using said control information. 21. The mobile station of claim 20, wherein said control information comprises an indicator comprising spreading factor information for recovering said first frame, and wherein the mobile station further comprises: a filter, coupled to the input, that extracts the spreading factor information from the indicator before reception of said first frame. 22. The mobile station of claim 21, further comprises: a despreader that directly receives the first frame from the filter, wherein the despreader immediately begins dispreading when said first frame is received to generate data chips; and a Walsh decoverer, coupled to the despreader, that receives the spreading factor information from the filter before receipt of the first frame and determines an inverse function to decover the data chips, and generates despread data symbols. 23. The mobile station of claim 20, wherein said slot further comprises voice information, power control information, and pilot information. 24. The mobile station of claim 20, wherein the first frame is delayed with respect to the second frame such that an end of the second frame is non-overlapping with a beginning of the first frame such that the beginning of the first frame is received after the end of the second frame. 25. The mobile station of claim 20, wherein the control information of the second frame corresponds to the data information in the first frame, and wherein the delay between the second frame and the first frame corresponds to a plurality of slot durations. 26. The mobile station of claim 22, further comprises: a descrambler that receives the despread data symbols from the Walsh decoverer, and descrambles the despread data symbols to generate descrambled symbols; a deinterleaver that receives the descrambled symbols from the descrambler, and generates code symbols; and a Viterbi decoder that receives said code symbols and generates the original code symbol sequence corresponding to the first frame and the second frame.
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