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.

The present invention relates to a method for controlling a communication of a first communicating device to a second communicating device over a communication network, the method comprises: monitoring data traffic to the communication network from the first communication device, in response to detection of at least one predetermined piece of information generating an acknowledgment complying a communication protocol used for the communication, and transmitting the generated acknowledgement to the first communication device for indicating a delivery of the data traffic to the second communicating device. The invention also relates to a network device and a computer program product.

A wireless communication device is disclosed. The wireless communication device includes a processor, a transceiver coupled to the processor, and a memory coupled to the processor. The memory is configured to store a plurality of instructions and the plurality of instructions are executed by the processor to perform operations of storing, in the memory, a duplication of each of the plurality of packets transmitted by a streaming provider; and in response to a request of retransmission transmitted by a terminal device for a lost packet, determining whether the duplication of the lost packet is stored in the memory.

A communication system, a data transmission method and a base station thereof are provided. The communication system includes a first base station and a second base station. The first base station includes a physical layer unit, a MAC layer unit and a PDCP layer unit. The physical layer unit is configured to transmit with a user equipment through a transmission channel. The MAC layer unit is configured to determine whether a retransmission ratio of the transmission channel is higher than a first threshold and to determine whether a transmission speed of the transmission channel is lower than a second threshold. If the retransmission ratio is higher than the first threshold and/or the transmission speed is lower than the second threshold, the first base station copy a packet and then transmits the copied packet to the second base station which accordingly transmits the copied packet to the user equipment.

A terminal includes: a receiving unit that receives specific sidelink control information related to an indication that disables a function of performing Hybrid Automatic Repeat Request (HARQ) feedback corresponding to a sidelink to a base station; and a control unit that performs a specific operation for the HARQ feedback in a case where the receiving unit receives the specific sidelink control information related to the indication.

This disclosure provides systems, devices, apparatus, and methods, including computer programs encoded on storage media, for indicating sidelink CSI information to a base station. A UE and a base station may determine a priority of a sidelink CSI report on an uplink channel in association with a priority of one or more of at least one uplink transmission or at least one other sidelink transmission. The sidelink CSI report may correspond to one or more sidelink transmissions between the UE and at least one other UE. The UE may transmit, and the base station may receive, via the uplink channel, the sidelink CSI report based on the priority of the sidelink CSI report on the uplink channel being determined in association with the priority of the one or more of the at least one uplink transmission or the at least one other SL transmission.

The present disclosure relates to a node (AP2, U11) in a wireless communication system (1), where the node (AP2, U11) is adapted to communicate with at least two other nodes (AP1, AP0) in the wireless communication system (1), and where the other nodes (AP1, AP0) are first type nodes (AP1, AP0) which are adapted to communicate with each other by means of backhaul communication. The node (AP2, U11) is adapted to receive a signal (xA) transmitted from an adjacent first type node (AP1), where the (xA) has been forwarded from at least one farther first type node (AP0). In case of unsuccessful decoding of the signal (xA), the node (AP2, U11) is adapted to request re-transmission (NACK) of the signal (xA), and to receive a re-transmission of the signal (xA) directly from a farther first type node (AP0).

A data forwarding method and apparatus in a Bluetooth Mesh network are disclosed. According to the present disclosure, on the basis of not changing the original Bluetooth protocol, switching is performed to transmit the forwarded data at different transmission rates multiple times. The transmission distance difference between different transmission rates is used to achieve regional flood forwarding, thereby reducing a large number of flooding of device nodes in the network and avoiding network congestion, and improving the performance of the entire Bluetooth Mesh network.

Apparatuses, methods, and systems are disclosed for sidelink HARQ operation. One apparatus includes a memory coupled to a processor, where the processor is configured to cause the second apparatus to receive a SL grant for a SL transmission using SL resources, the SL grant indicating a first HARQ process identified by a first HARQ process identifier, and to select a second SL HARQ process identified by a second SL HARQ process identifier for the SL transmission using the SL resources. The processor is configured to cause the second apparatus to transmit SCI containing the second SL HARQ process identifier and to perform the SL transmission using the SL resources.

A device (150) is arranged on a source side of a wireless link (50) and receives data traffic from one or more source devices (201, 202, 203). The device (150) forwards the data traffic via the wireless link (50) and via a further device (11), which is arranged on a destination side of the wireless link (50), towards one or more destination devices (21, 22, 23, 24). The device (150) receives redundancy information from the further device (11). The redundancy information indicates redundant payload which is common to multiple data frames in the data traffic forwarded by the device (150). Based on the redundancy information, the device (150) removes the indicated redundant payload from at least a part of the data traffic to be forwarded by the device (150).