Apparatuses, methods, and systems are disclosed for mobility management among multiple network slices. One apparatus 300 includes a processor 305 that receives 855 an indication of an attached mobile unit attaching to a secondary network slice of the mobile communication network. The processor 305 also receives 860 a mobility management request from the mobile unit and forwards 865 the mobility management request to the secondary network slice. In various embodiments, the apparatus 300 may include a network interface 330 for communicating over a mobile communication network.

There is provided a method, said method comprising at a secondary base station associated with a user equipment, controlling initiation of a connection between a primary base station and the user equipment, such that the user equipment is in dual connectivity mode with the primary base station and the secondary base station.

A method, implemented in a first node, that is in communication with a second node and a mobile device, includes determining a traffic type of a first traffic bearer within a packet data network connection between the second node and the mobile device. The method further includes marking the first traffic bearer as movable or non-movable based on the determined traffic type. The method also includes in response to determining that the first traffic bearer has been marked as non-movable, marking all other traffic bearers in the packet data network connection between the second node and the mobile device as non-movable.

Apparatus and methods of handing over a wireless transmit/receive unit (WTRU) that belongs to a group of WTRUs from an originating base station to a target base station are described. A method includes the WTRU obtaining information regarding a group to which the WTRU has been assigned and the WTRU receiving at least one of handover reconfiguration information that is common to the group and handover reconfiguration information that is specific to the WTRU. On a condition that the WTRU receives the handover reconfiguration information that is specific to the WTRU, the WTRU initiates a synchronization procedure with the target base station based at least on the received handover reconfiguration information.

Techniques are disclosed for avoiding reduction in throughput due to redundant transmission of downlink packets when a split bearer is deleted. A user equipment includes a transmission and reception unit to communicate with a master base station and a secondary base station simultaneously in dual connectivity; an RLC (Radio Link Control) layer processing unit configured to have an RLC layer for the master base station and an RLC layer for the secondary base station; and a PDCP (Packet Data Convergence Protocol) layer processing unit configured to have a PDCP layer transmitting and receiving data to/from the RLC layer for the master base station and the RLC layer for the secondary base station. When the split bearer configured for the secondary base station is deleted, the RLC layer processing unit performs re-establishment on the RLC layer for the secondary base station and releases the split bearer after execution of the re-establishment.

Embodiments of the present invention provide a communication method. The communication method includes: performing, by a terminal, a handover from a source base station to a target base station via an interface between the source base station and the target base station, obtaining, by the target base station, a first security capability, and sending, by the target base station, the first security capability to another base station, to establish dual connections. The source base station does not support the first security capability, and the target base station, the another base station, and a core-network network element support the first security capability. The target base station obtains the first security capability, so that the terminal can establish the dual connections to the target base station and the another base station.

A wireless audio system using low overhead in-band control and audio transmission is provided. The wireless audio system includes a first wireless audio device configured to operate separate physical layer channels for audio data and control data, and transmit the audio data and control data using a single wideband carrier. The wireless audio system also includes one or more second wireless audio devices configured to receive the audio data and control data, and execute an instruction based on the control data.

A method, device, base station and UE for uplink transmission main carrier switch and control enable the uplink transmission main carrier of the UE to switch among multiple different cells providing service for the UE, enhance the transmission flexibility of the uplink transmission main carrier of the UE, and at the same time take account of the transmission requirements of transmission power and UE services. The method for uplink transmission main carrier switch and control includes: determining the transmission resources of the cell set used for providing service for the UE, the transmission resources being configured for the user equipment (UE), wherein the transmission resources includes the configured resources of uplink transmission carrier of multiple cells, the transmission resources being used for enabling the uplink transmission main carrier of UE to switch among the uplink transmission carriers corresponding to different cells; informing the UE of the transmission resource of the cell set.

It is possible to reduce latency and/or overhead when performing a platoon handover by using the leading vehicle in the platoon to communicate handover requests and/or initial resource requests (e.g., random access transmissions) on behalf of trailing vehicles in the platoon. In one example, a leading vehicle in a platoon communicates a handover request to a source AP to request handover of the entire platoon from the source AP to a target AP. In such an example, the source AP then communicates handover commands to each vehicle in the platoon without receiving separate handover requests from the trailing vehicles, thereby reducing overhead in the access network. The handover commands notify the trailing vehicles of the handover, and may be sequentially communicated to the trailing vehicles based on their order in the platoon.

A method comprises determining that a handover of a user equipment in multi-flow communication with a serving cell and an assisting cell has taken place and providing, from a radio network controller to a first access point providing the assisting cell, an indication of the handover.