Provided are a channel conflict processing method and apparatus, a device, and a storage medium. The channel conflict processing method includes: in the case where a transmission resource on a high-priority uplink channel of a UE and a transmission resource on a low-priority uplink channel of the UE overlap in time domain, determining the start position for transmission cancellation of the low-priority uplink channel; and canceling the transmission resource on the low-priority uplink channel according to the start position for transmission cancellation.

Provided are a quasi-co-location information obtaining method, communication node and storage medium. The method of obtaining quasi-co-location information, including: acquiring, by a communication node based on first information, a number x and/or a determination mode of quasi-co-location reference signal sets of a first element; where the first information includes at least one of: information indicated in a downlink control channel that schedules the first element; the number of quasi-co-location reference signal set corresponding to a predetermined codepoint in a transmission configuration indicator (TCI) state mapping table; the number of CORESET group; the maximum number of quasi-co-location reference signal sets corresponding to one codepoint in the TCI state mapping table; or a number of time domain repetition of the first element; the number of quasi-co-location reference signal sets corresponding to a second element.

An apparatus and a method of communication of the same are provided. A method of communication of a user equipment (UE) includes receiving, by the UE, a first information, and the first information corresponds to search space group monitoring for a first serving cell. This provides a search space group indication and further provides a method of search space group switching.

Apparatuses, methods, and systems are disclosed for transmitting SL CSI using an uplink channel. One apparatus includes a transceiver that receives a first SL-CSI value from a RX UE via one of a plurality of unicast links. The apparatus includes a processor that generates a SL-CSI report comprising the first SL-CSI value, wherein the first SL-CSI value is tagged with an identifier that identifies the RX UE. The processor controls the transceiver to transmit the SL-CSI report using an uplink channel.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit a measurement report based at least in part on a set of measurements of one or more reference signals received using a set of candidate beams; transmit a negative acknowledgement for a downlink transmission scheduled for one or more beams of the set of candidate beams; and monitor one or more new beams of the set of candidate beams for a retransmission of the downlink transmission. Numerous other aspects are provided.

The present disclosure provides a method for transmitting and receiving a sidelink positioning reference signal and a terminal. The method includes: when a resource occupied by the sidelink positioning reference signal collides with a resource occupied by at least one type of information in a first information set, not transmitting the S-PRS on the collided resource, wherein the first information set includes: at least one of a sidelink physical channel, a sidelink reference signal, a sidelink synchronization signal, a sidelink synchronization signal block, an automatic gain control information and a guard period information.

The present technology relates to a wireless communication apparatus and a wireless communication method that make it possible to achieve an improvement in the number of multiplexing on a non-orthogonal axis.

The wireless communication apparatus transmits a signal including information for setting of an occupancy period of a wireless transmission path on a basis of extraction processing time required for processing, which includes interference cancellation processing in communication using non-orthogonal multiplexing, to extract desired data from a received signal. The present technology is applicable to a wireless communication system.

A method includes: transmitting a plurality of data signals via a physical uplink shared channel (PUSCH) or a plurality of report signals via a physical uplink control channel (PUCCH) from a user equipment to a wireless network according to a plurality of transmission configurations for spatial settings; and receiving a control signal before the transmitting, by a user equipment, from the wireless network, wherein the control signal indicates the plurality of transmission configurations for the spatial settings; the plurality of transmission configurations for the spatial settings are associated with multiple reference signals.

Embodiments of the present disclosure relate to methods, devices, and medium for communication. According to embodiments of the present disclosure, the terminal device transmits the assistant information to the network device. The assistant information indicates preferences of the terminal device. The network device determines configuration information based on the assistant information and transmits the configuration information to the terminal device. In this way, the configuration is suitable to the terminal device.

A terminal includes: a receiving unit receiving single control information for scheduling a plurality of cells; and a control unit receiving a transport block from the plurality of cells, based on the control information, in which the control unit: receives different transport blocks in each of the plurality of cells; receives a same transport block in each of the plurality of cells; or receives a part of a transport block in each of the plurality of cells.