Method and device for transmitting and receiving signals in wireless communication system
摘要
說明書
To transmit a signal in the U-band, the UE may initiate a CAP (S1510). The UE may randomly select a backoff counter N within a contention window (CW) according to step 1. In this case, N is set to an initial value Ninit (S1520). Ninit may have a random value between 0 and CWp. If it is determined according to step 4 that the backoff counter value (N) is 0 (YES in S1530), the UE terminates the CAP (S1532). Then, the UE may perform Tx burst transmission (S1534). If the backoff counter value is non-zero (NO in S1530), the UE decreases the backoff counter value by 1 according to step 2 (S1540). The UE checks whether the channel of U-cell(s) is idle (S1550). If the channel is idle (YES in S1550), the UE checks whether the backoff counter value is 0 (S1530). On the contrary, if the channel is not idle in S1550, that is, if the channel is busy (NO in S1550), the UE checks whether the corresponding channel is idle for a defer duration Td (longer than or equal to 25 usec), which is longer than a slot duration (e.g., 9 usec), according to step 5 (S1560). If the channel is idle for the defer duration (YES in S1570), the UE may resume the CAP. Here, the defer duration may include a duration of 16 usec and mp consecutive slot durations (e.g., 9 usec), which immediately follows the duration of 16 usec. If the channel is busy for the defer duration (NO in S1570), the UE performs step S1560 again to check whether the channel is idle for a new defer duration.
Table 4 shows that the values of mp, a minimum CW, a maximum CW, a maximum channel occupancy time (MCOT), and allowed CW sizes, which are applied to the CAP, vary depending on channel access priority classes.
