Method and apparatus for determining modulation scheme for retransmission in a communication system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-027/04
H04L-027/02
H04L-027/12
H04L-027/10
H04L-027/20
H04L-027/36
H04L-027/34
H03K-007/10
H03K-007/00
H04B-007/14
H04B-001/02
출원번호
US-0300476
(2002-11-20)
우선권정보
KR-10-2001-0072485(2001-11-20)
발명자
/ 주소
Ha,Sang Hyuck
Kim,Min Goo
출원인 / 주소
Samsung Electronics Co., Ltd.
대리인 / 주소
Dilworth &
인용정보
피인용 횟수 :
15인용 특허 :
7
초록▼
A method and apparatus for determining an optimum modulation scheme for a retransmission in a communication system supporting HARQ. When two modulation schemes are available, at an initial transmission, information is modulated in the lower-order modulation scheme if a first MPR is less than a first
A method and apparatus for determining an optimum modulation scheme for a retransmission in a communication system supporting HARQ. When two modulation schemes are available, at an initial transmission, information is modulated in the lower-order modulation scheme if a first MPR is less than a first threshold, and in the higher-order modulation scheme if the first MPR is greater than or equal to the first threshold. Here, an MPR is determined by an EP size, the number of available Walsh codes, and the number of slots per sub-packet that are used for a transmission. To select one of the modulation schemes for a retransmission, a second MPR is calculated using an EP size, the number of available Walsh codes, and the number of slots per sub-packet that are used for the retransmission. If the first MPR is equal to or less than a second threshold greater than the first threshold, the lower-order modulation scheme is selected. If the second MPR is greater than the second threshold, the higher-order modulation scheme is selected.
대표청구항▼
What is claimed is: 1. A method of determining a modulation scheme for a retransmission in a communication system using at least three modulation schemes, where at an initial transmission of sub-packets, information is modulated in a lowest-order modulation scheme if a first MPR (Modulation order P
What is claimed is: 1. A method of determining a modulation scheme for a retransmission in a communication system using at least three modulation schemes, where at an initial transmission of sub-packets, information is modulated in a lowest-order modulation scheme if a first MPR (Modulation order Product code Rate), which is defined as an average number of information bits per modulation symbol, is less than a first threshold, and in a modulation scheme having a modulation order higher than the lowest modulation order if the first MPR is greater than or equal to the first threshold, the first MPR being proportional to wherein N is an EP (Encoder Packet) size W1 is a number of available Walsh codes, and S1 is a number of slots per sub-packet that are used for the initial transmission, the method comprising the steps of: calculating a second MPR indicating a spectral efficiency for the retransmission using an EP size, the number of available Walsh codes, and the number of slots per sub-packet that are used for the retransmission; selecting the lowest-order modulation scheme if the second MPR is equal to or less than a second threshold greater than a first threshold; calculating an equivalent MPR (MPRe), using the first MPR and the second MPR if the second MPR is greater than the second threshold and equal to or less than a third threshold which is greater than the second threshold, selecting another order modulation scheme among the plurality of modulation schemes which has a higher modulation order than the lowest-order modulation scheme if MPRe is less than a fourth threshold, and selecting a further order modulation scheme among the plurality of modulation schemes which has a higher modulation order than the lowest-order modulation scheme and the other modulation scheme if MPRe is greater than or equal to the fourth threshold; and selecting a highest-order modulation scheme if the second MPR is greater than the third threshold. 2. The method of claim 1, wherein the first threshold has a value of 1.5, the second threshold has a value of 2.0, and the third threshold has a value of 3.0. 3. The method of claim 1, wherein MPRe is calculated by where MPRk is a current spectral efficiency for a kth transmission, calculated using an EP size, the number of available Walsh codes, and the number of slots per sub-packet that are used for the kth transmission, and MPRp is a past spectral efficiency reflecting spectral efficiencies of sub-packets transmitted before the current transmission of the same information. 4. The method of claim 1, wherein the at least three modulation schemes include QPSK (Quadrature Phase Shift Keying), 8PSK (8 Phase Shift Keying), and 16QAM (16 level Quadrature Amplitude Modulation). 5. The method of claim 1, wherein the first, second, third and fourth thresholds are set empirically. 6. The method of claim 5, wherein the first threshold is equal to fourth threshold. 7. A method of determining a modulation scheme for a retransmission in a communication system using two modulation schemes, where at an initial transmission of sub-packets, information is modulated in the lower-order modulation scheme if a first MPR (Modulation order Product code Rate), which is defined as an average number of information bits per modulation symbol, is less than a first threshold, valid in the higher-order modulation scheme if the first MPR is equal to or greater than the first threshold, the first MPR being proportional to N/W 1횞S1, wherein N is an EP (Encoder Packet) size, W1 is a number of available Walsh codes, and S1 is a number of slots per sub-packet that are used for the initial transmission, the method comprising the steps of: calculating a second MPR indicating a spectral efficiency for the retransmission using an EP size, the number of available Walsh codes, and the number of slots per sub-packet that are used for the retransmission; selecting the lower-order modulation scheme if the second MPR is equal to or less than a second threshold greater than the first threshold; and selecting the higher-order modulation scheme which has a higher modulation order than the lower-order modulation scheme, if the second MPR is greater than the second threshold. 8. The method of claim 7, wherein the first threshold has a value of 1.5 and the second threshold is has a value of 2.5. 9. The method of claim 7, wherein the two modulation schemes are QPSK (Quadrature Phase Shift Keying) and 16 QAM (16 level Quadrature Amplitude Modulation). 10. The method of claim 7, wherein the first and second thresholds are set empirically. 11. An apparatus for determining a modulation scheme for a retransmission in a communication system using at least three modulation schemes where information is modulated in one of the modulation schemes at an initial transmission of sub-packets, comprising: a plurality of modulators using different modulation schemes; a modulator selector for determining a modulation scheme for each transmission and outputting a modulator selection signal indicating the determined modulation scheme; and a demultiplexer for outputting input data to a modulator selected according to the modulator selection signal, wherein the modulator selector is adapted to determine the modulation scheme for a transmission by the following steps: determining a modulation order product code rate MPRk , which indicates a current spectral efficiency for a kth transmission and which is proportional to wherein N is an EP (Encoder packet) size, Wk a number of available Walsh codes, and Sk a number of slots per sub-packet that are used for the kth transmission; selecting a lowest-order modulation scheme, if 0≦MPRk≦THL; in the case that THL<MPRk≦ THH: selecting a medium order modulation scheme which has a higher modulation order than the lowest-order modulation scheme, if MPRe <THE; and selecting a highest order modulation scheme, which has a higher modulation order than the medium order modulation scheme, if MPRe≧THE, else selecting the highest order modulation scheme, wherein MPRe is a spectral efficiency reflecting modulation symbols transmitted before the current transmission of the same information and THL, THH, and THE are predetermined empirical thresholds. 12. The apparatus of claim 11, wherein THL has a value of 2.0, THH has a value of 3.0, and THE has a value of 1.5. 13. An apparatus for determining a modulation scheme for a retransmission in a communication system where at an initial transmission of sub-packets, information is modulated in one of two available modulation schemes, comprising: a plurality of modulators using different modulation schemes; a modulator selector for determining a modulation scheme for each transmission by an algorithm expressed as the following equation and outputting a modulator selection signal indicating the determined modulation scheme, and a demultiplexer for outputting input data to a modulator selected according to the modulator selection signal, wherein the modulator selector is adapted to determine the modulation scheme for a transmission by following steps: determining a modulation order product code rate MPRk , which indicates a current spectral efficiency for a kth transmission and which is proportional to wherein N is an EP (Encoder packet) size, Wk is a number of available Walsh codes, and Sk is a number of slots per sub-packet that are used for the kth transmission; selecting a lower order modulation scheme, if 0<MPR k≦THM; else selecting a higher order modulation scheme which has a higher modulation order than the lower order modulation scheme, wherein THM is a predetermined empirical threshold. 14. The apparatus of claim 13, wherein THM has a value of 2.5.
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