Uplink power control method, user equipment, and base station

The invention claimed is: 1. An uplink power control method for use in a user equipment (UE) of a Time Division Duplex (TDD) system, the method comprising: receiving, by the UE, subframe type configuration information; receiving, by the UE, uplink (UL) power control information; determining, by the UE, a transmission (Tx) power of a UL channel based on the UL power control information and the subframe type configuration information; and transmitting, by the UE, the UL channel at the Tx power, wherein the subframe configuration information indicates which subframe is a first type of subframe or a second type of subframe, wherein the UL power control information includes: a first parameter used for the first type of subframe; and a second parameter used for the second type of subframe, wherein the Tx power is determined using the first parameter when the UL channel is transmitted in the first type of subframe, wherein the Tx power is determined using the second parameter when the UL channel is transmitted in the second type of subframe, wherein the first type of subframe is a UL homogeneous time duration in which both a communication link type of a serving cell of the UE and a communication link type of a neighbor cell are UL, and wherein the second type of subframe is a UL heterogeneous time duration in which the communication link type of the serving cell is UL and the communication link type of the neighbor cell is downlink (DL). 2. The method according to claim 1 , wherein the first type of subframe is a subframe where the UL channel transmitted by the UE causes interference toward a DL control channel transmitted in the neighbor cell other than the serving cell in which the UE is located. 3. An uplink power control method for use in a base station (BS) of a Time Division Duplex (TDD) system, the method comprising: transmitting, by the BS to a user equipment (UE), subframe type information; transmitting, by the BS to the UE, uplink (UL) power control information; and receiving, by the BS, a UL channel transmitted by the UE at a transmission (Tx) power, wherein the subframe configuration information indicates which subframe is a first type of subframe or a second type of subframe, wherein the UL power control information includes: a first parameter for the first type of subframe, and a second parameter for the second type of subframe, wherein the Tx power is determined using the first parameter when the UL channel is transmitted by the UE in the first type of subframe, wherein the Tx power is determined using the second parameter when the UL channel is transmitted by the UE in the second type of subframe, wherein the first type of subframe is a UL homogeneous time duration in which a communication link type of a serving cell of the UE and a communication link type of a neighbor cell are UL, and wherein the second type of subframe is a UL heterogeneous time duration in which the communication link type of the serving cell is UL and the communication link type of the neighbor cell is downlink (DL). 4. The method according to claim 3 , wherein the first type of subframe is a subframe where the UL channel transmitted to the BS of the serving cell causes interference toward the DL control channel transmitted by a BS of the neighbor cell. 5. A user equipment (UE) for use in a Time Division Duplex (TDD) system comprising: a transmitter; a receiver; and a processor configured to: control the transmitter and the receiver; control the receiver to receive subframe type configuration information; control the receiver to receive uplink (UL) power control information; and determine a transmission (Tx) power of a UL channel based on the UL power control information and the subframe type configuration information, wherein the subframe configuration information indicates which subframe is a first type of subframe or a second type of subframe, wherein the UL power control information includes a first parameter used for the first type of subframe and a second parameter used for the second type of subframe, wherein the Tx power is determined using the first parameter when the UL channel is transmitted in the first type of subframe, wherein the Tx power is determined using the second parameter when the UL channel is transmitted in the second type of subframe, wherein the first type of subframe is a UL homogeneous time duration in which both a communication link type of a serving cell of the UE and a communication link type of a neighbor cell are UL, and wherein the second type of subframe is a UL heterogeneous time duration in which the communication link type of the serving cell is UL and the communication link type of the neighbor cell is downlink (DL). 6. The UE according to claim 5 , wherein the first type of subframe is a subframe where the UL channel transmitted by the UE causes interference toward a DL control channel transmitted in the neighbor cell other than the serving cell in which the UE is located. 7. A base station (BS) for use in a Time Division Duplex (TDD) system comprising: a transmitter; a receiver; and a processor configured to: control the transmitter and the receiver; control the transmitter to transmit subframe type information to a user equipment (UE); control the transmitter to transmit, to the UE, uplink (UL) power control information; and control the receiver to receive a UL channel transmitted by the UE at a transmission (Tx) power, wherein the subframe configuration information indicates which subframe is a first type of subframe or a second type of subframe, wherein the UL power control information includes a first parameter used for the first type of subframe and a second parameter used for the second type of subframe, wherein the Tx power is determined using the first parameter when the UL channel is transmitted by the UE in the first type of subframe, wherein the Tx power is determined using the second parameter when the UL channel is transmitted by the UE in the second type of subframe, wherein the first type of subframe is a UL homogeneous time duration in which both a communication link type of a serving cell of the UE and a communication link type of a neighbor cell are UL, and wherein the second type of subframe is a UL heterogeneous time duration in which the communication link type of the serving cell is UL and the communication link type of the neighbor cell is downlink (DL). 8. The BS according to claim 7 , wherein the first type of subframe is a subframe where the UL channel transmitted to the BS of the serving cell causes interference toward the DL transmitted by a BS of the neighbor cell. 9. The method according to claim 2 , wherein the Tx power determined using the first parameter is lower than the Tx power determined using the second parameter. 10. The method according to claim 4 , wherein the Tx power determined using the first parameter is lower than the Tx power determined using the second parameter. 11. The UE according to claim 6 , wherein the Tx power determined using the first parameter is lower than the Tx power determined using the second parameter. 12. The BS according to claim 8 , wherein the Tx power determined using the first parameter is lower than the Tx power determined using the second parameter.