A method of transmitting a sounding reference signal includes generating a physical uplink control channel (PUCCH) carrying uplink control information on a subframe, the subframe comprising a plurality of SC-FDMA (single carrier-frequency division multiple access) symbols, wherein the uplink control
A method of transmitting a sounding reference signal includes generating a physical uplink control channel (PUCCH) carrying uplink control information on a subframe, the subframe comprising a plurality of SC-FDMA (single carrier-frequency division multiple access) symbols, wherein the uplink control information is punctured on one SC-FDMA symbol in the subframe, and transmitting simultaneously the uplink control information on the PUCCH and a sounding reference signal on the punctured SC-FDMA symbol. The uplink control information and the sounding reference signal can be simultaneously transmitted without affecting a single carrier characteristic.
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1. A method for transmitting a reference signal in a wireless communication system, the method comprising: receiving, by a user equipment, a message including a sounding indicator from a base station, the sounding indicator indicating whether the user equipment is configured to support a transmissio
1. A method for transmitting a reference signal in a wireless communication system, the method comprising: receiving, by a user equipment, a message including a sounding indicator from a base station, the sounding indicator indicating whether the user equipment is configured to support a transmission of an uplink control signal and a sounding reference signal in one subframe; anddetermining, by the user equipment, periodically a subframe in which the sounding reference signal is allowed to be transmitted to the base station, the subframe comprising two slots, each of the two slots comprising a plurality of data single carrier-frequency division multiple access (SC-FDMA) symbols and a plurality of reference signal (RS) SC-FDMA symbols;transmitting, by the user equipment, the uplink control signal and the sounding reference signal in the determined subframe to the base station if the user equipment is configured to support the transmission of the uplink control signal and the sounding reference signal,wherein transmitting the uplink control signal and the sounding reference signal in the determined subframe comprises: mapping the uplink control signal to the plurality of data SC-FDMA symbols of each of the two slots;mapping a demodulation reference signal for demodulating the uplink control signal to the plurality of RS SC-FDMA symbols of each of the two slots;puncturing only one SC-FDMA symbol of the plurality of data SC-FDMA symbols of one of the two slots;mapping the sounding reference signal to the punctured SC-FDMA symbol; andtransmitting the uplink control signal, the demodulation reference signal and the sounding reference signal in the determined subframe via the SC-FDMA symbols to which the uplink control signal, the demodulation reference signal and the sounding reference signal are mapped,wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the one of the two slots is spread by a first orthogonal sequence,wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the other of the two slots is spread by a second orthogonal sequence having a length different from a length of the first orthogonal sequence, andwherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the one of the two slots is spread by a spreading factor of 3, and wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the other of the two slots is spread by a spreading factor of 4. 2. The method of claim 1, wherein the one of the two slots is allocated on a frequency different from a frequency on which the other of the two slots is allocated. 3. The method of claim 1, wherein the length of the first orthogonal sequence is shorter than the length of the second orthogonal sequence. 4. The method of claim 1, wherein the last SC-FDMA symbol in the subframe is punctured for transmitting the sounding reference signal. 5. The method of claim 1, wherein the uplink control signal is a channel quality information (CQI) or an acknowledgment (ACK)/non-acknowledgment (NACK) signal used in a hybrid automatic repeat request (HARQ) scheme. 6. The method of claim 1, further comprising: transmitting, by the user equipment, the uplink control signal in the determined subframe to the base station if the user equipment is not configured to support the transmission of the uplink control signal and the sounding reference signal. 7. A user equipment configured for transmitting a reference signal in a wireless communication system, the user equipment comprising: a processor; anda memory operatively coupled with the processor and storing instructions that when executed by the processor cause the user equipment to: receive a message including a sounding indicator from a base station, the sounding indicator indicating whether the user equipment is configured to support a transmission of an uplink control signal and a sounding reference signal in one subframe;determine periodically a subframe in which the sounding reference signal is allowed to be transmitted to the base station, the subframe comprising two slots, each of the two slots comprising a plurality of data single carrier-frequency division multiple access (SC-FDMA) symbols and a plurality of reference signal (RS) SC-FDMA symbols; andtransmit the uplink control signal and the sounding reference signal in a subframe if the user equipment is configured to support the transmission of the uplink control signal and the sounding reference signal,wherein the memory stores further instructions that when executed by the processor cause the user equipment to transmit the uplink control signal and the sounding reference signal in the determined subframe by: mapping the uplink control signal to the plurality of data SC-FDMA symbols of each of the two slots;mapping a demodulation reference signal for demodulating the uplink control signal to the plurality of RS SC-FDMA symbols of each of the two slots;puncturing only one SC-FDMA symbol of the plurality of data SC-FDMA symbols of one of the two slots;mapping the sounding reference signal to the punctured SC-FDMA symbol; andtransmitting the uplink control signal, the demodulation reference signal and the sounding reference signal in the determined subframe via the SC-FDMA symbols to which the uplink control signal, the demodulation reference signal and the sounding reference signal are mapped,wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the one of the two slots is spread by a first orthogonal sequence,wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the other of the two slots is spread by a second orthogonal sequence having a length different from a length of the first orthogonal sequence, andwherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the one of the two slots is spread by a spreading factor of 3, and wherein the uplink control signal mapped to the plurality of data SC-FDMA symbols of the other of the two slots is spread by a spreading factor of 4. 8. The user equipment of claim 7, wherein the last SC-FDMA symbol in the subframe is punctured for transmitting the sounding reference signal. 9. The user equipment of claim 7, wherein the uplink control signal is a channel quality information (CQI) or an acknowledgment (ACK)/non-acknowledgment (NACK) signal used in a hybrid automatic repeat request (HARQ) scheme. 10. The user equipment of claim 7, wherein the memory stores further instructions that when executed by the processor cause the user equipment to transmit the uplink control signal in the determined subframe to the base station if the user equipment is not configured to support the transmission of the uplink control signal and the sounding reference signal.
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