To prevent a client device from being stranded, a steering controller of an access point device can provide an improved network environment or performance by steering a target client device to a basic service set (BSS) of a network device that is different from the current BSS of the target client device based on a first or a poor link quality threshold where non-associated client (NAC) link quality parameters for NAC network devices within the network environment, such as a mesh network, is not available. The steering controller can select or identify a candidate BSS and then send a steering query to the target client device. The steering controller can receive a response from the target client device that indicates whether the steering to the candidate BSS was successful or accepted by the targeted client device.

A method and a User Equipment, UE, for handling multiple Bandwidth Parts, BWPs, when being connected to a wireless network. The UE is configured to obtain from the network a configuration for use when autonomously switching from a source BWP to a target BWP, said configuration indicating one or more transmissions that the UE can start in the target BWP during a BWP switch. When detecting that the UE is subjected to a trigger event in the source BWP, wherein the trigger event triggers an autonomous BWP switch, the UE transmits to the network in the target BWP a BWP switch request, and the UE also performs at least one further transmission indicated by the obtained configuration.

A method and a User Equipment, UE, for handling multiple Bandwidth Parts, BWPs, when being connected to a wireless network. The UE is configured to obtain from the network a configuration for use when autonomously switching from a source BWP to a target BWP, said configuration indicating one or more transmissions that the UE can start in the target BWP during a BWP switch. When detecting that the UE is subjected to a trigger event in the source BWP, wherein the trigger event triggers an autonomous BWP switch, the UE transmits to the network in the target BWP a BWP switch request, and the UE also performs at least one further transmission indicated by the obtained configuration.

A (repeater) node may identify a first indication of a waveform switch associated with a first link between a base station and the node or a second link between the node and a UE. A waveform switch associated with the first link may be triggered by the base station or the node. A waveform switch associated with the second link may be triggered by the node or the UE. The waveform switch may correspond to a first switch from an OFDM waveform to an SC waveform or a second switch from the SC waveform to the OFDM waveform. The base station may transmit, to the node, an indication of a post-waveform switch resource mapping between a first waveform associated with the first link and a second waveform associated with the second link. The node may execute the waveform switch associated with the first link or the second link.

A (repeater) node may identify a first indication of a waveform switch associated with a first link between a base station and the node or a second link between the node and a UE. A waveform switch associated with the first link may be triggered by the base station or the node. A waveform switch associated with the second link may be triggered by the node or the UE. The waveform switch may correspond to a first switch from an OFDM waveform to an SC waveform or a second switch from the SC waveform to the OFDM waveform. The base station may transmit, to the node, an indication of a post-waveform switch resource mapping between a first waveform associated with the first link and a second waveform associated with the second link. The node may execute the waveform switch associated with the first link or the second link.

A base station of a radio access network (RAN) can be configured to prioritize standalone (SA) 5G traffic over non-standalone (NSA) 5G traffic in certain situations, to improve user experiences associated with 5G-specific services implemented via SA 5G networks. The base station can generally instruct 5G user equipment (UE), such SA UEs and NSA UEs, to prioritize camping on an SA priority band. However, if a RAN load level is at or above a threshold, the base station can instruct NSA UEs to prioritize camping on a different priority band in order to relieve congestion on the SA priority band and/or preserve remaining capacity on the SA priority band for SA UEs. When the RAN load level is above a threshold, the base station can also, or alternately, at least briefly delay traffic associated with NSA UEs to prioritize transmission of traffic associated with SA UEs.

A base station of a radio access network (RAN) can be configured to prioritize standalone (SA) 5G traffic over non-standalone (NSA) 5G traffic in certain situations, to improve user experiences associated with 5G-specific services implemented via SA 5G networks. The base station can generally instruct 5G user equipment (UE), such SA UEs and NSA UEs, to prioritize camping on an SA priority band. However, if a RAN load level is at or above a threshold, the base station can instruct NSA UEs to prioritize camping on a different priority band in order to relieve congestion on the SA priority band and/or preserve remaining capacity on the SA priority band for SA UEs. When the RAN load level is above a threshold, the base station can also, or alternately, at least briefly delay traffic associated with NSA UEs to prioritize transmission of traffic associated with SA UEs.

A method for cell selection, a user equipment and a network side device are provided. The method includes: reading, by a UE, first system information of a first cell on a first frequency; in a case that the first system information of the first cell indicates that camping on the first cell is not allowed and an intra-frequency reselection is not allowed and in a case that a set condition is met, the UE not selecting, or not reselecting, or neither selecting nor reselecting a cell on the first frequency.

A method for cell selection, a user equipment and a network side device are provided. The method includes: reading, by a UE, first system information of a first cell on a first frequency; in a case that the first system information of the first cell indicates that camping on the first cell is not allowed and an intra-frequency reselection is not allowed and in a case that a set condition is met, the UE not selecting, or not reselecting, or neither selecting nor reselecting a cell on the first frequency.

Disclosed are a method for configuring a scheduling request, a network device, a terminal device, and a computer storage medium. The method comprises: receiving at least one bandwidth part (BWP) configured by a network side; and receiving configuration parameters of at least one scheduling request configured by the network side for each BWP, wherein the configuration parameters of the scheduling request have a mapping relationship with a logical channel.