IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
UP-0783034
(2007-04-05)
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등록번호 |
US-7843804
(2011-01-31)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
10 |
초록
▼
A transmission method includes transmitting a signal using an orthogonal frequency division multiplexing, receiving the transmitted signal at a plurality of reception devices, and controlling a transmission power for first signals transmitted to the plurality of reception devices in an area formed b
A transmission method includes transmitting a signal using an orthogonal frequency division multiplexing, receiving the transmitted signal at a plurality of reception devices, and controlling a transmission power for first signals transmitted to the plurality of reception devices in an area formed by the transmitter to be greater than a transmission power for second signals transmitted to a specific device in the area, wherein said first signals and said second signals are time division multiplexed.
대표청구항
▼
What is claimed is: 1. A transmission method comprising: transmitting a signal from a transmission device to a reception device using orthogonal frequency division multiplex; making a transmission power of a first signal relatively larger than a transmission power provided in a transmission period
What is claimed is: 1. A transmission method comprising: transmitting a signal from a transmission device to a reception device using orthogonal frequency division multiplex; making a transmission power of a first signal relatively larger than a transmission power provided in a transmission period of a second signal series on the basis of a guard interval length corresponding to a maximum transmission delay difference between the transmission device and the reception device, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all reception devices in an area formed by the transmission device, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of reception devices by using demultiplex according to a time direction, wherein the first signal is not transmitted each time the data included in the second signal series is transmitted. 2. A transmission method comprising: transmitting a signal from a transmission device to a reception device using orthogonal frequency division multiplex; making a power control coefficient of a second signal series smaller than a power control coefficient of a first signal on the basis of a guard interval length corresponding to a maximum transmission delay difference between the transmission device and the reception device, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all reception devices in an area formed by the transmission device, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of reception devices by using demultiplex according to a time direction, wherein the first signal is not transmitted each time the data included in the second signal series is transmitted. 3. A base station comprising: a transmitter which transmits a signal to a reception device using orthogonal frequency division multiplex; a power control unit which makes a transmission power of a first signal relatively larger than a transmission power of a second signal series on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the reception device, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all reception devices in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of reception devices by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted. 4. A base station comprising: a transmitter which transmits a signal to a reception device using orthogonal frequency division multiplex; a power control unit which makes a power control coefficient of a second signal series smaller than a power control coefficient of a first signal on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the reception device, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all reception devices in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of reception devices by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted. 5. A system comprising: a base station and a mobile station; wherein the base station comprises: a transmitter that transmits a signal to the mobile station using orthogonal frequency division multiplex, a power control unit which makes a transmission power of a first signal relatively larger than a transmission power of a second signal series on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the mobile station, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all mobile stations in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of mobile stations by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted; and the mobile station comprises: a receiver that receives the first signal and the second signal series. 6. The system of claim 5, wherein the base station further comprises: a modulation unit which multiplies a transmission signal series by a code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit which converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency, wherein the base station transmits more than one of the high frequency signals that were converted so that they have different frequencies; and the mobile station further comprises: a receiver that receives the signals transmitted by the base station. 7. The system of claim 5, wherein the base station further comprises: a modulation unit (SMOD) which multiplies a first transmission signal series a by a first code and which multiplies a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit that converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and the mobile station further comprises: a receiver that receives the signals generated by the base station. 8. The system of claim 5, wherein the base station further comprises: a modulation unit (SMOD) which multiplies a first transmission signal series a by a first code and which multiplies a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit that converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and the mobile station further comprises: a receiver that receives the signals generated by the base station. 9. A system comprising: a base station and a mobile station; wherein the base station comprises: a transmitter that transmits a signal to the mobile station using orthogonal frequency division multiplex, a power control unit which makes a power control coefficient of a second signal series smaller than a power control coefficient of a first signal on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the mobile station, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all mobile stations in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of mobile stations by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted; and the mobile station comprises: a receiver that receives the first signal and the second signal series. 10. The system of claim 9, wherein the base station further comprises: a modulation unit which multiplies a transmission signal series by a code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit which converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency, wherein the base station transmits more than one of the high frequency signals that were converted so that they have different frequencies; and the mobile station further comprises: a receiver that receives the signals transmitted by the base station. 11. The system of claim 9, wherein the base station further comprises: a modulation unit (SMOD) which multiplies a first transmission signal series a by a first code and which multiplies a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit that converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and the mobile station further comprises: a receiver that receives the signals generated by the base station. 12. The system of claim 9, wherein the base station further comprises: a modulation unit (SMOD) which multiplies a first transmission signal series a by a first code and which multiplies a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, an OFDM modulation unit which modulates and arranges, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of the OFDM, and a high frequency conversion unit that converts a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and the mobile station further comprises: a receiver that receives the signals generated by the base station. 13. A transmission method comprising: at the base station, performing: transmitting a signal from the base station to a mobile station using orthogonal frequency division multiplex, making a transmission power of a first signal relatively larger than a transmission power of a second signal series on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the mobile station, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all mobile stations in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of mobile stations by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted; and at the mobile station, performing: receiving the first signal and the second signal series. 14. The transmission method of claim 13, wherein the method further comprises: at the base station, further performing: multiplying a transmission signal series by a code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of an OFDM, converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency, and transmitting more than one of the high frequency signals that were converted so that they have different frequencies; and at the mobile radio station, further performing: receiving the signals transmitted by the base station. 15. The transmission method of claim 13, wherein the method further comprises: at the base station, further performing: multiplying a first transmission signal series a by a first code and multiplying a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of and OFDM, and converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and at the mobile radio station, further performing: receiving the signals generated by the base station. 16. The transmission method of claim 13, wherein the method further comprises: at the base station, further performing: multiplying a first transmission signal series a by a first code and multiplying a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of and OFDM, and converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and at the mobile radio station, further performing: receiving the signals generated by the base station. 17. A transmission method comprising: at the base station, performing: transmitting a signal from the base station to a mobile station using orthogonal frequency division multiplex, making a power control coefficient of a second signal series smaller than a power control coefficient of a first signal on the basis of a guard interval length corresponding to a maximum transmission delay difference between the base station and the mobile station, when the first signal and the second signal series are temporally multiplexed and transmitted, wherein the first signal is transmitted to substantially all mobile stations in an area formed by the base station, and the second signal series are obtained by multiplexing data to be transmitted to each of the plurality of mobile stations by using demultiplex according to a time direction, wherein the first signal is a signal transmitted in a period preceding the second signal series, and is not transmitted each time the data included in the second signal series is transmitted; and at the mobile station, performing: receiving the first signal and the second signal series. 18. The transmission method of claim 17, wherein the method further comprises: at the base station, further performing: multiplying a transmission signal series by a code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of an OFDM, converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency, and transmitting more than one of the high frequency signals that were converted so that they have different frequencies; and at the mobile station, performing: receiving the signals transmitted by the base station. 19. The transmission method of claim 17, wherein the method further comprises: at the transmission device, further performing: multiplying a first transmission signal series a by a first code and multiplying a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of and OFDM, and converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and at the mobile station, performing: receiving the signals generated by the base station. 20. The transmission method of claim 17, wherein the method further comprises: at the transmission device, further performing: multiplying a first transmission signal series a by a first code and multiplying a second transmission signal series to be time-division multiplexed with the first transmission signal series and transmitted by a second code, modulating and arranging, as a signal of a predetermined power, a multiplied series set for each single symbol time in the subcarrier direction of and OFDM, and converting a signal of the OFDM modulation unit into a high frequency signal having a predetermined frequency; and at the mobile station, performing: receiving the signals generated by the base station.
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