A terminal and a method performed by the same in a wireless communication system are provided for improved communication efficiency. The method includes receiving at least one PDSCH from one or more scheduled PDSCHs. Each of the one or more PDSCHs includes a unicast PDSCH including a dynamically scheduled unicast PDSCH and/or a unicast semi-persistent scheduling PDSCH, and/or a multicast PDSCH including a dynamically scheduled multicast PDSCH and/or a multicast SPS PDSCH, and feeding back hybrid automatic repeat request-acknowledgement information for the at least one received PDSCH.

A terminal and a method performed by the same in a wireless communication system are provided for improved communication efficiency. The method includes receiving at least one PDSCH from one or more scheduled PDSCHs. Each of the one or more PDSCHs includes a unicast PDSCH including a dynamically scheduled unicast PDSCH and/or a unicast semi-persistent scheduling PDSCH, and/or a multicast PDSCH including a dynamically scheduled multicast PDSCH and/or a multicast SPS PDSCH, and feeding back hybrid automatic repeat request-acknowledgement information for the at least one received PDSCH.

The disclosure relates to a fifth generation (5G) or sixth generation (6G) communication system for supporting a higher data transmission rate. The method includes transmitting, to a base station, user equipment (UE) capability information indicating that the UE supports a frequency division multiplexing (FDM) between a unicast physical downlink shared channel (PDSCH) and a group-common PDSCH in a slot and receiving, from the base station, a first PDSCH that is the unicast PDSCH and a second PDSCH that is the group-common PDSCH, which are FDMed in the slot based on the UE capability information.

The disclosure relates to a fifth generation (5G) or sixth generation (6G) communication system for supporting a higher data transmission rate. The method includes transmitting, to a base station, user equipment (UE) capability information indicating that the UE supports a frequency division multiplexing (FDM) between a unicast physical downlink shared channel (PDSCH) and a group-common PDSCH in a slot and receiving, from the base station, a first PDSCH that is the unicast PDSCH and a second PDSCH that is the group-common PDSCH, which are FDMed in the slot based on the UE capability information.

Provided are a method and device for processing multicast/broadcast service (MBS) data by a UE in an NR-based mobile communication network. The method may include receiving configuration information for receiving MBS data through semi-persistent scheduling (SPS), monitoring indication information associated with the SPS based on the configuration information, and receiving the MBS data according to the SPS based on the configuration information.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive configuration information indicating a first semi-persistent scheduling (SPS) configuration and a second SPS configuration, wherein one or more first SPS occasions defined by the first SPS configuration and one or more second SPS occasions defined by the second SPS configuration are within a time interval associated with a traffic burst of a communication. The UE may receive downlink control information (DCI) activating at least one SPS configuration, of the first SPS configuration and the second SPS configuration. The UE may perform the communication using the at least one activated SPS configuration. Numerous other aspects are described.

Proposed is a method for performing wireless communication by a first device. The method may comprise the steps of: receiving a configured grant from a base station; transmitting a first physical sidelink control channel (PSCCH) or a first physical sidelink shared channel (PSSCH) to a second device through a first sidelink resource assigned by the configure grant; receiving a dynamic grant from the base station through a physical downlink control channel (PDCCH), wherein the dynamic grant comprises index information of the configured grant related to the dynamic grant; and on the basis of the index information of the configured grant, retransmitting the first PSCCH or the first PSSCH to the second device through a second sidelink resource assigned by the dynamic grant.

Disclosed in the present invention are a method for transmitting/receiving a PDSCH in a wireless communication system, and a device therefor.

Particularly, a method by which a terminal receives a PDSCH comprises the steps of: receiving configuration information, the configuration information including (i) first information for configuring semi-persistent downlink transmission and (ii) second information related to control resource sets (CORESETs), the first information including a plurality of configurations related to downlink semi-persistent scheduling (SPS), and (i) a first CORESET, which corresponds to a first CORESET group index, and (ii) a second CORESET, which corresponds to a second CORE SET group index, being configured on the basis of the second information; receiving first downlink control information (DCI) based on the first CORESET and second DCI based on a second CORESET, the semi-persistent downlink transmission being activated on the basis of the first DCI and/or the second DCI; and receiving a semi-persistent scheduling PDSCH on the basis of the activation, the SPS PDSCH being associated with a CORESET group index corresponding to a CORESET, which has received DCI by which the semi-persistent downlink transmission is activated.

A sequence of connected messages is transmitted using Semi-Persistent Scheduling (SPS) of a predefined period. A random value for a 1-shot duration timer is set, the random value being chosen as being between a minimum and a maximum multiple of the predefined period. Responsive to expiration of the 1-shot duration timer, 1-shot resources are allocated for a 1-shot transmission, independent of SPS-allocated resources of the SPS, and a next packet of the sequence of connected messages is transmitted as a 1-shot message using the 1-shot resources instead of using the SPS-allocated resources of the SPS.

Apparatus and method to allow for the activation of SPS/G with multi-PDSCH/PUSCH. The apparatus receives DCI comprising a TDRA assignment that is configured with multiple PUSCHs or multiple PDSCHs. The apparatus selects a first SLIV of a TDRA row indicated by the TDRA assignment comprising one or more SLIVs to activate SPS or a CG. The apparatus transmits the multiple PUSCHs or receiving the multiple PDSCHs based on a selected SLIV of the TDRA row. The apparatus may select the first SLIV for transmission of the multiple PUSCHs or reception of the multiple PDSCHs if a row indicated by the DCI comprises a plurality of SLIVs.