Aspects of the disclosure provide an electronic device including processing circuitry and a method for beam failure recovery (BFR). When beam failure is determined to occur on at least one of a plurality of cells configured for the electronic device, the processing circuitry can send a BFR scheduling request (SR) to a network. The BFR SR can indicate the beam failure and requesting resources to report the beam failure. The processing circuitry can receive priority scheduling for the resources from the network. The processing circuitry can send a BFR request (BFRQ) using the resources. The BFRQ can indicate cell information of the at least one of the plurality of cells and new beam information of one or more new candidate beams for the at least one of the plurality of cells.

Aspects of the disclosure provide an electronic device including processing circuitry and a method for beam failure recovery (BFR). When beam failure is determined to occur on at least one of a plurality of cells configured for the electronic device, the processing circuitry can send a BFR scheduling request (SR) to a network. The BFR SR can indicate the beam failure and requesting resources to report the beam failure. The processing circuitry can receive priority scheduling for the resources from the network. The processing circuitry can send a BFR request (BFRQ) using the resources. The BFRQ can indicate cell information of the at least one of the plurality of cells and new beam information of one or more new candidate beams for the at least one of the plurality of cells.

A user equipment (UE) in a wireless network including a first next generation NodeB (gNB) and a second gNB for communicating with the UE performs operations. The operations include determining to transmit a first transmission (Tx) stream and a second Tx stream simultaneously to the first gNB and the second gNB for handing over communication with the UE from a first cell to a second cell, wherein the first gNB is a serving gNB in the first cell and the second gNB is a handover target gNB in the second cell and simultaneously transmitting within a same antenna panel of the UE the first transmission stream to the first gNB using a first polarization and the second transmission stream to the second gNB using a second polarization different from the first polarization.

A user equipment (UE) in a wireless network including a first next generation NodeB (gNB) and a second gNB for communicating with the UE performs operations. The operations include determining to transmit a first transmission (Tx) stream and a second Tx stream simultaneously to the first gNB and the second gNB for handing over communication with the UE from a first cell to a second cell, wherein the first gNB is a serving gNB in the first cell and the second gNB is a handover target gNB in the second cell and simultaneously transmitting within a same antenna panel of the UE the first transmission stream to the first gNB using a first polarization and the second transmission stream to the second gNB using a second polarization different from the first polarization.

The present disclosure relates to a central unit (CU) device, a user equipment, a wireless communication method, and a storage medium. The CU device according to the present disclosure comprises a processing circuit, configured to: generate switching configuration information for the user equipment to switch from a source distributed unit (DU) device to a target DU device, the switching configuration information comprising one or more candidate target DU devices of the user equipment; and send the switching configuration information to the user equipment. By using the CU device, the user equipment, the wireless communication method, and the storage medium according to the present disclosure, the user equipment can be rapidly switched to a suitable DU device, and a DU device can be rapidly switched to a suitable CU device.

A method for controlling cell search of User Equipment (UE) includes: receiving frequency layer information corresponding to a Synchronization Signal and PBCH Block (SSB) index from a network side through a system broadcast; determining at least one to-be-searched cell with a high frequency priority based on a retrieved beam index or the frequency layer information corresponding to the SSB index, the cell with a high frequency priority being a cell of which a frequency priority is higher than a frequency priority of a cell where the UE is presently located; and searching the at least one to-be-searched cell with a high frequency priority based on a search time interval. The search time interval is a minimum time interval, meeting a performance requirement, for all cells with high frequency priority.

Disclosed in the present invention are a channel transmission method and device. The method includes that: a terminal determines transmission time corresponding to a first channel as a first moment, wherein a Band Width Part (BWP) activated by the terminal presently is a first BWP; the terminal receives first control information from a network device, wherein the first control information includes first indication information, and the first indication information is to indicate that a to-be-activated BWP is a second BWP; and the terminal transmits no first channel at the first moment when the first BWP and the second BWP meet a predetermined rule.

Disclosed in the present invention are a channel transmission method and device. The method includes that: a terminal determines transmission time corresponding to a first channel as a first moment, wherein a Band Width Part (BWP) activated by the terminal presently is a first BWP; the terminal receives first control information from a network device, wherein the first control information includes first indication information, and the first indication information is to indicate that a to-be-activated BWP is a second BWP; and the terminal transmits no first channel at the first moment when the first BWP and the second BWP meet a predetermined rule.

A method for bandwidth part (BWP) switching includes receiving an indication to switch operation of a user equipment (UE) configured for dual connectivity from a first BWP to a second BWP. At least one of an allowed interruption duration or an allowed BWP switch delay are determined for switching operation of the UE from the first BWP to the second BWP, where the allowed interruption duration is up to two subframes, and where the allowed BWP switch delay is at least one slot greater than two subframes. Operation of the UE is switched from the first BWP to the second BWP based on the at least one of the allowed interruption duration or the allowed BWP switch delay.

The exemplary embodiments describe devices, systems and methods for adaptive uplink (UL) timing adjustment for beam switching. A user equipment (UE) may perform a beam switch from a first beam to a second beam, determine a timing offset associated with the second beam and apply an uplink (UL) timing adjustment based on the timing offset associated with the second beam. In some embodiments, the timing offset may be determined based on information received after the beam switch. In other embodiments, the timing offset may be determined based on information receive prior to the beam switch.