IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0144211
(2005-06-02)
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등록번호 |
US-8588203
(2013-11-19)
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발명자
/ 주소 |
- Agrawal, Avneesh
- Malladi, Durga Prasad
- Stamoulis, Anastasios
- Mantravadi, Ashok
- Murali, Ramaswamy
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
46 |
초록
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Techniques to transmit data with cyclic delay diversity and pilot staggering are described. For cyclic delay diversity, OFDM symbols having different cyclic delay durations are generated. The cyclic delay durations for the OFDM symbols may be selected to be time varying with respect to the cyclic de
Techniques to transmit data with cyclic delay diversity and pilot staggering are described. For cyclic delay diversity, OFDM symbols having different cyclic delay durations are generated. The cyclic delay durations for the OFDM symbols may be selected to be time varying with respect to the cyclic delay durations for OFDM symbols transmitted by a neighboring base station. An FDM pilot is generated and multiplexed on multiple sets of subbands in different symbol periods. Waveforms for a second radio technology (e.g., W-CDMA) may be generated for data to be transmitted with this radio technology. The OFDM symbols are multiplexed onto time slots used for OFDM, and the waveforms for the second radio technology are multiplexed onto time slots used for this radio technology. One or multiple modulated signals may be generated based on the multiplexed OFDM symbols and waveforms. Each modulated signal is transmitted from a respective antenna.
대표청구항
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1. An apparatus comprising: a first modulator to generate multi-carrier modulation (MCM) symbols having a plurality of different cyclic delay durations, wherein generating an MCM symbol with a cyclic delay duration of Di comprises moving Di samples from an end of a symbol to a front of the symbol;a
1. An apparatus comprising: a first modulator to generate multi-carrier modulation (MCM) symbols having a plurality of different cyclic delay durations, wherein generating an MCM symbol with a cyclic delay duration of Di comprises moving Di samples from an end of a symbol to a front of the symbol;a transmitter to transmit the MCM symbols from a single antenna; anda processor to generate a frequency division multiplexed (FDM) pilot and to multiplex the FDM pilot on a plurality of sets of frequency subbands in different symbol periods, one set of subbands in each symbol period, wherein the processor multiplexes the FDM pilot on a first set of one or more frequency subbands in odd-numbered symbol periods and multiplexes the FDM pilot on a second set of one or more frequency subbands in even-numbered symbol periods, wherein the FDM pilot is transmitted on each frequency subband in the first set of one or more frequency subbands during each odd-numbered symbol period, and wherein the FDM pilot is transmitted on each frequency subband in the second set of one or more frequency subbands during each even-numbered symbol period. 2. The apparatus of claim 1, wherein the first modulator generates the MCM symbols based on Interleaved Frequency Division Multiple Access (IFDMA) or Localized FDMA (LFDMA). 3. The apparatus of claim 1, wherein MCM is a first radio technology, the apparatus further comprising: a second modulator to generate waveforms in accordance with a second radio technology; anda multiplexer to multiplex the MCM symbols onto time slots used for MCM and to multiplex the waveforms onto time slots used for the second radio technology. 4. The apparatus of claim 3, wherein the second radio technology is Wideband Code Division Multiple Access (W-CDMA). 5. The apparatus of claim 1, wherein the MCM symbols are Orthogonal Frequency Division Multiplexing (OFDM) symbols. 6. The apparatus of claim 5, further comprising: a controller to pseudo-randomly select a cyclic delay duration for each of the OFDM symbols. 7. The apparatus of claim 5, further comprising: a controller to select a cyclic delay duration for each of the OFDM symbols in a deterministic manner. 8. The apparatus of claim 5, further comprising: a controller to select cyclic delay durations for the OFDM symbols to be time varying with respect to cyclic delay durations for OFDM symbols transmitted by a neighboring base station. 9. The apparatus of claim 5, wherein the modulator selectively applies cyclic delay to a subset of the OFDM symbols. 10. The apparatus of claim 1, wherein the plurality of sets of frequency subbands comprise all frequency subbands usable for data transmission. 11. The apparatus of claim 5, further comprising: a second modulator to generate waveforms for a second radio technology; anda multiplexer to multiplex the OFDM symbols onto time slots used for OFDM and to multiplex the waveforms for the second radio technology onto time slots used for the second radio technology. 12. The apparatus of claim 5, wherein the OFDM symbols are for a broadcast transmission sent from a plurality of base stations. 13. A method of transmitting data in a wireless communication system, comprising: generating Orthogonal Frequency Division Multiplexing (OFDM) symbols having a plurality of different cyclic delay durations, wherein generating an OFDM symbol with a cyclic delay duration of Di comprises moving Di samples from an end of a symbol to a front of the symbol;transmitting the OFDM symbols from a single antenna;generating a frequency division multiplexed (FDM) pilot; andmultiplexing the FDM pilot on a plurality of sets of frequency subbands in different symbol periods, one set of subbands in each symbol period, wherein the FDM pilot is multiplexed on a first set of one or more frequency subbands in odd-numbered symbol periods, and wherein the FDM pilot is multiplexed on a second set of one or more frequency subbands in even-numbered symbol periods, wherein the FDM pilot is transmitted on each frequency subband in the first set of one or more frequency subbands during each odd-numbered symbol period, and wherein the FDM pilot is transmitted on each frequency subband in the second set of one or more frequency subbands during each even-numbered symbol period. 14. The method of claim 13, further comprising: selecting cyclic delay durations for the OFDM symbols to be time varying with respect to cyclic delay durations for OFDM symbols transmitted by a neighboring base station. 15. The method of claim 13, further comprising: multiplexing the OFDM symbols onto time slots used for OFDM;generating waveforms for a second radio technology; andmultiplexing the waveforms for the second radio technology onto time slots used for the second radio technology. 16. An apparatus comprising: means for generating Orthogonal Frequency Division Multiplexing (OFDM) symbols having a plurality of different cyclic delay durations, wherein generating an OFDM symbol with a cyclic delay duration of Di comprises moving Di samples from an end of a symbol to a front of the symbol;means for transmitting the OFDM symbols from a single antenna;means for generating a frequency division multiplexed (FDM) pilot; andmeans for multiplexing the FDM pilot on a plurality of sets of frequency subbands in different symbol periods, one set of subbands in each symbol period, wherein the FDM pilot is multiplexed on a first set of one or more frequency subbands in odd-numbered symbol periods, and wherein the FDM pilot is multiplexed on a second set of one or more frequency subbands in even-numbered symbol periods, wherein the FDM pilot is transmitted on each frequency subband in the first set of one or more frequency subbands during each odd-numbered symbol period, and wherein the FDM pilot is transmitted on each frequency subband in the second set of one or more frequency subbands during each even-numbered symbol period. 17. The apparatus of claim 16, further comprising: means for selecting cyclic delay durations for the OFDM symbols to be time varying with respect to cyclic delay durations for OFDM symbols transmitted by a neighboring base station. 18. The apparatus of claim 16, further comprising: means for multiplexing the OFDM symbols onto time slots used for OFDM;means for generating waveforms for a second radio technology; andmeans for multiplexing the waveforms for the second radio technology onto time slots used for the second radio technology. 19. The apparatus of claim 4, wherein the transmitter is further configured to generate a modulated signal with the multiplexed OFDM symbols and W-CDMA waveforms and to transmit the modulated signal from a single antenna. 20. The apparatus of claim 4, wherein the transmitter is further configured to generate at least two modulated signals with the multiplexed OFDM symbols and W-CDMA waveforms and to transmit the at least two modulated signals from at least two antennas. 21. The apparatus of claim 20, wherein the first modulator generates at least two OFDM symbols with different cyclic delay durations for each time slot used for OFDM, and wherein the transmitter transmits the at least two OFDM symbols from the at least two antennas. 22. The apparatus of claim 4, wherein the processor is further configured to perform spatial processing on modulation symbols with a plurality of steering vectors to generate transmit symbols, and wherein the first modulator generates the OFDM symbols based on the transmit symbols. 23. The apparatus of claim 22, wherein the plurality of steering vectors are for a plurality of frequency subbands, and wherein the processor performs spatial processing on the modulation symbols for each frequency subband with a steering vector for the frequency subband. 24. The apparatus of claim 22, wherein the plurality of steering vectors are formed based on a Fourier matrix or a Walsh matrix. 25. The method of claim 15, wherein the second radio technology is Wideband Code Division Multiple Access (W-CDMA). 26. The method of claim 25, further comprising: generating a modulated signal with the multiplexed OFDM symbols and W-CDMA waveforms; andtransmitting the modulated signal from a single antenna. 27. The method of claim 25, further comprising: generating at least two modulated signals with the multiplexed OFDM symbols and W-CDMA waveforms; andtransmitting the at least two modulated signals from at least two antennas. 28. The apparatus of claim 18, wherein the second radio technology is Wideband Code Division Multiple Access (W-CDMA). 29. The apparatus of claim 28, further comprising: means for generating a modulated signal with the multiplexed OFDM symbols and W-CDMA waveforms; andmeans for transmitting the modulated signal from a single antenna. 30. The apparatus of claim 28, further comprising: means for generating at least two modulated signals with the multiplexed OFDM symbols and W-CDMA waveforms; andmeans for transmitting the at least two modulated signals from at least two antennas. 31. A non-transitory computer-readable medium, comprising: code for generating Orthogonal Frequency Division Multiplexing (OFDM) symbols having a plurality of different cyclic delay durations, wherein generating an OFDM symbol with a cyclic delay duration of Di comprises moving Di samples from an end of a symbol to a front of the symbol;code for transmitting the OFDM symbols from a single antenna;code for generating a frequency division multiplexed (FDM) pilot; andcode for multiplexing the FDM pilot on a plurality of sets of frequency subbands in different symbol periods, one set of subbands in each symbol period, wherein the FDM pilot is multiplexed on a first set of one or more frequency subbands in odd-numbered symbol periods, and wherein the FDM pilot is multiplexed on a second set of one or more frequency subbands in even-numbered symbol periods, wherein the FDM pilot is transmitted on each frequency subband in the first set of one or more frequency subbands during each odd-numbered symbol period, and wherein the FDM pilot is transmitted on each frequency subband in the second set of one or more frequency subbands during each even-numbered symbol period. 32. A method of transmitting data in a wireless communication system, comprising: cyclically delaying a first symbol by D1 samples to obtain a first cyclically delayed symbol, wherein cyclically delaying the first symbol comprises moving the last D1 samples of the first symbol to the front of the first symbol;appending a first cyclic prefix to the first cyclically delayed symbol to obtain a first multi-carrier modulation (MCM) symbol;cyclically delaying a second symbol by D2 samples to obtain a second cyclically delayed symbol, wherein cyclically delaying the second symbol comprises moving the last D2 samples of the second symbol to the front of the second symbol, and wherein the duration of D2 does not equal the duration of D1;appending a second cyclic prefix to the second cyclically delayed symbol to obtain a second MCM symbol; andtransmitting the first MCM symbol in a first MCM symbol period and the second MCM symbol in a second MCM symbol period from a single antenna.
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