A user equipment, a method performed by user equipment, and a chipset provided in a user equipment each encompass receiving a paging message including an indication from a current serving cell of the user equipment, the indication triggering a frequency redistribution procedure in which the user equipment reselects a target cell belonging to a frequency different from a frequency of the current serving cell, to be used as a serving cell, and performing the frequency redistribution procedure in response to receiving the paging message including the indication.

A user equipment, a method performed by user equipment, and a chipset provided in a user equipment each encompass receiving a paging message including an indication from a current serving cell of the user equipment, the indication triggering a frequency redistribution procedure in which the user equipment reselects a target cell belonging to a frequency different from a frequency of the current serving cell, to be used as a serving cell, and performing the frequency redistribution procedure in response to receiving the paging message including the indication.

A handover method, a network device, and a terminal device are provided. The method includes: a first network device acquires measurement results of links, wherein the links include a link between the first network device and a first terminal device and a link between the first network device and a second terminal device; and the first network device determines a first handover scheme of the first terminal device and/or a second handover scheme of the second terminal device according to the measurement results.

A first base station receives from a core network entity, a first message indicating a request for a session resource for a wireless device. The session resource is associated with a first network slice. The first base station sends to a second base station, a second message indicating a handover request for the wireless device towards a first cell of the second base station. The first message comprises: a packet flow identifier of a packet flow associated with the first network slice; a network slice identifier of the first network slice; and a cause information element indicating that the handover request is to provide at least one network slice for the wireless device. The at least one network slice comprises the first network slice. The first base station receives from the second base station, a third message indicates an acceptance or a rejection based on the second message.

The embodiments of the present invention relate to a method, an apparatus, and a system for selecting a public land mobile network. In an embodiment method an eNodeB acquires PLMN information about a CSFB. The eNodeB then determines a target cell of a packet switching handover according to the PLMN information about the CSFB.

There is provided a communication control device including an acquisition unit configured to acquire a result of measurement by a terminal device, and a control unit configured to control switching of an operation mode of a base station of a small cell overlapping with a macro cell partially or wholly based on the result of the measurement. The switching is switching of the operation mode from one of a first mode and a second mode to the other. The first mode is a mode in which the base station can perform wireless communication with a device in the small cell, and the second mode is a mode that consumes less power than the first mode.

A method of coordinating a plurality of radio access networks (RANs) includes aggregating, with a gateway, communications interfaces between a plurality of RANs and a packet core network through the gateway. A plurality of radio nodes (RNs) in each of the RANs is communicatively coupled to the gateway and to user equipment (UE) devices associated with the RNs in each of the RANs. The gateway also controls and coordinates mobility of the UE devices within and among the RANs. In addition, the gateway acts as a virtual enhanced NodeB (eNB) to the packet core network, thereby hiding the aggregated communications interfaces from the packet core network.

The present disclosure relates to a method of obtaining path information of an unmanned aerial vehicle (UAV). The method is applicable to a base station, and includes: receiving indication information from the UAV, where the indication information indicates whether the UAV has a capability of sending the path information; if the UAV has the capability of sending the path information according to the indication information, sending configuration information to the UAV, where the configuration information indicates whether the UAV is allowed to send the path information to the base station; and if the UAV is allowed to send the path information to the base station, receiving the path information from the UAV. According to examples of the present disclosure, the base station successfully receives the path information from the UAV.

The present disclosure provides an information transmission method and apparatus. The method is applicable to a source base station that currently provides network service to an UAV and the method includes: obtaining flight path information on the UAV; sending the flight path information to a target base station for the target base station to provide network service to the UAV according to the flight path information.

A terminal device may determine that no data service has been received within a preset-duration. The terminal device further determines that a radio resource control (RRC) connection is not released when no data service is received within the preset duration. The terminal device performs a handover from the first cell to the second cell upon determining that the RRC connection is not released.