The present specification provides a method by which user equipment (UE) is connected to a base station. The method comprises the steps of: receiving broadcasted information from the base station, wherein the broadcasted information includes information of network slices connected to the base station and capability information of the base station; determining a type indicating a service to be provided or a kind of operation on the basis of the information on the network slices and capability information on the base station; transmitting, to the base station, a connection request message including information on the determined type; and receiving a connection accept message for a first network slice among the network slices connected to the base station. The first network slice can be selected by the base station on the basis of the information on the type.

A radio device configures a radio connection between the radio device and a cellular network. The radio connection is registered for a cell area comprising at least a first cell and a second cell of the cellular network. Before a decision of the radio device to perform a change from the first cell to the second cell, the radio device determines a configuration which enables performing allocation of radio resources to the radio device via a control channel of the second cell. After the change of the radio device from the first cell to the second cell, the radio device resumes transmission on the radio connection by requesting allocation of radio resources of second cell based on the determined configuration.

A mobile communication system includes a first Home Node B (HNB); a second HNB; and a HNB gateway (HNB-GW) that is connected to a core network, wherein the first HNB is configured to communicate with a user equipment (UE) before a relocation of intra HNB-GW in which the UE is relocated from the first HNB to the second HNB, wherein the second HNB is configured to communicate with a user equipment (UE) after the relocation and send Iu-UP Initialization comprising an RFCI information to the HNB-GW during the relocation, and wherein the HNB-GW is configured to receive the Iu-UP Initialization.

Examples are disclosed for a wireless device handoff between a first wireless network and a second wireless network.

A first master node (MN) receives an interface message from a secondary node (SN), wherein the second interface message comprises at least one of a first measurement configuration and a secondary cell group (SCG) configuration; the first MN transmits a Handover Request message to a second MN, wherein the Handover Request message comprises the at least one of the first measurement configuration and the second SCG configuration; the first MN receives a Handover Request Acknowledge message from the second MN, wherein the Handover Request Acknowledge message comprises a Handover Command message; and the first MN transmits the Handover Command message to the communication device.

Aspects of the present invention pertain to a method, comprising receiving a preparatory handover request pertaining to at least one or more physical resources, respectively associated to a particular communication service, preliminarily deciding on the feasibility of such preparatory handover request for each of said at least one or more physical resources associated to the particular communication service dependent on at least one feasibility criterion, and validating the preliminary decision on the feasibility of the preparatory handover request dependent on at least one validation criterion. Likewise, corresponding apparatus and computer program products are addressed, both from network entity perspective such as a gNB, as well as from a terminal's perspective, e.g. from a UE perspective.

A key management is provided that enables security activation before handing over a user equipment from a source 5G wireless communication system, i.e., a Next Generation System (NGS), to a target 4G wireless communication system, i.e., a Evolved Packet System (EPS)/Long Term Evolution (LTE). The key management achieves backward security, i.e., prevents the target 4G wireless communication system from getting knowledge of 5G security information used in the source 5G wireless communication system.

A method performed by a User Equipment, UE, to perform handover from a source access node to a target access node is provided. The UE, the source access node and 5 the target access node are operating in a wireless communications network. The UE receives (601) a handover command message from the source access node. The UE establishes (602) a target radio connection with the target access node, and determines (603) whether or not a source cell release criterion is fulfilled. When the source cell release criterion is determined to be fulfilled, the UE releases (604) a source radio 10 connection with the source access node.

This disclosure provides systems, methods, and apparatuses for low latency handover between secondary nodes (SNs). In one aspect, a user equipment (UE) may receive a configuration for a plurality of SNs, receive a command to communicate via an SN of the plurality of the SNs, and determine a handover procedure that is to be used to establish a connection with the SN. The handover procedure may be a random access channel (RACH)-less or a two-step RACH procedure and is determined to be used based on a determination that uplink time synchronization is established with the SN.

Signal quality of a communication signal that is being used to communicate with a hosted speech service is detected. When poor signal quality is detected, switching logic is controlled to selectively switch to a separate communication application or component, such as a telephony component. User interface elements can be provided for user interaction, in the switching process, as well.