Data in communication system supporting multiple links

The invention claimed is: 1 . A method of a first device, comprising: performing a first backoff operation for a first access category (AC) on a first link; performing a second backoff operation for a second AC on the first link; performing a third backoff operation for a third AC on a second link; in response to that the first backoff operation and the second backoff operation succeed on the first link, selecting one AC from among the first AC and the second AC; and in response to that the third backoff operation succeeds, simultaneously performing a first transmission operation of a first frame including a data unit corresponding to the selected one AC on the first link and a second transmission operation of a second frame including a data unit corresponding to the third AC on the second link. 2 . The method according to claim 1 , further comprising: in response to that the first transmission operation and the second transmission operation are completed, performing a fourth backoff operation for an unselected AC other than the selected one AC among the first AC and the second AC, wherein enhanced distributed channel access (EDCA) parameters used in the fourth backoff operation are same as EDCA parameters used in a previous backoff operation of the unselected AC, and the previous backoff operation is the first backoff operation or the second backoff operation. 3 . The method according to claim 2 , wherein the EDCA parameters include at least one of CW[AC] or QSRC[AC], where the CW[AC] is a content window (CW) for each of the first AC, the second AC, and the third AC, and the QSRC[AC] is a quality of service (QoS) short retry counter (QSRC) for each of the first AC, the second AC, and the third AC. 4 . The method according to claim 1 , wherein when at least one backoff operation among the first backoff operation and the second backoff operation succeeds before the third backoff operation succeeds, a counter value of the at least one backoff operation is maintained at 0. 5 . The method according to claim 1 , wherein when at least one backoff operation among the first backoff operation and the second backoff operation succeeds before the third backoff operation succeeds, a data unit corresponding to an AC associated with the at least one backoff operation is not transmitted. 6 . The method according to claim 1 , wherein the data unit corresponding to the selected one AC is a data unit corresponding to an AC associated with a backoff operation that succeeds first among the first backoff operation and the second backoff operation. 7 . The method according to claim 1 , wherein the data unit corresponding to the selected one AC is a data unit corresponding to an AC having a higher priority among the first AC and the second AC. 8 . The method according to claim 1 , wherein padding bit(s) are added to one of the first frame and the second frame in order to align end times of the first transmission operation and the second transmission operation. 9 . The method according to claim 1 , wherein a portion of the first data unit is added to one of the first frame and the second frame in order to align end times of the first transmission operation and the second transmission operation. 10 . The method according to claim 9 , wherein the first data unit is a data unit other than the data unit corresponding to the selected one AC among a data unit corresponding to the first AC and a data unit corresponding to the second AC. 11 . A first device comprising: a processor; and a memory storing one or more instructions executable by the processor, wherein the one or more instructions are executed to perform: performing a first backoff operation for a first access category (AC) on a first link; performing a second backoff operation for a second AC on the first link; performing a third backoff operation for a third AC on a second link; in response to that the first backoff operation and the second backoff operation succeed on the first link, selecting one AC from among the first AC and the second AC; and in response to that the third backoff operation succeeds, simultaneously performing a first transmission operation of a first frame including a data unit corresponding to the selected one AC on the first link and a second transmission operation of a second frame including a data unit corresponding to the third AC on the second link. 12 . The first device according to claim 11 , wherein the one or more instructions are further executed to perform: in response to that the first transmission operation and the second transmission operation are completed, performing a fourth backoff operation for an unselected AC other than the selected one AC among the first AC and the second AC, wherein enhanced distributed channel access (EDCA) parameters used in the fourth backoff operation are same as EDCA parameters used in a previous backoff operation of the unselected AC, and the previous backoff operation is the first backoff operation or the second backoff operation. 13 . The first device according to claim 12 , wherein the EDCA parameters include at least one of CW[AC] or QSRC[AC], where the CW[AC] is a content window (CW) for each of the first AC, the second AC, and the third AC, and the QSRC[AC] is a quality of service (QoS) short retry counter (QSRC) for each of the first AC, the second AC, and the third AC. 14 . The first device according to claim 11 , wherein when at least one backoff operation among the first backoff operation and the second backoff operation succeeds before the third backoff operation succeeds, a counter value of the at least one backoff operation is maintained at 0. 15 . The first device according to claim 11 , wherein when at least one backoff operation among the first backoff operation and the second backoff operation succeeds before the third backoff operation succeeds, a data unit corresponding to an AC associated with the at least one backoff operation is not transmitted. 16 . The first device according to claim 11 , wherein the data unit corresponding to the selected one AC is a data unit corresponding to an AC associated with a backoff operation that succeeds first among the first backoff operation and the second backoff operation. 17 . The first device according to claim 11 , wherein the data unit corresponding to the selected one AC is a data unit corresponding to an AC having a higher priority among the first AC and the second AC. 18 . The first device according to claim 11 , wherein padding bit(s) are added to one of the first frame and the second frame in order to align end times of the first transmission operation and the second transmission operation. 19 . The first device according to claim 11 , wherein a portion of the first data unit is added to one of the first frame and the second frame in order to align end times of the first transmission operation and the second transmission operation. 20 . The first device according to claim 19 , wherein the first data unit is a data unit other than the data unit corresponding to the selected one AC among a data unit corresponding to the first AC and a data unit corresponding to the second AC.