The present disclosure relates to a pre-5.sup.th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4.sup.th-Generation (4G) communication system such as Long Term Evolution (LTE). The embodiments in the present disclosure allow to transfer remaining data between different base stations in a dual-registration interworking process, which provides terminal mobility between 4G and 5G networks without a data loss. Further, it provides the terminal mobility with no data loss without changing 5G and 4G base station implementation through addition of a simple function of new equipment, such as SMF and UPF. Further, it supports different QoS and forwarding path units in the 5G/4G networks without changing 5G and 4G base station functions. Further, it exempts additional function implementation costs for re-ordering in a terminal and a network through in-order delivery of packets to the terminal without changing the packet order during 4G-5G network movement.

A method performed by a network entity includes receiving a first instruction element (IE) indicating an identity of a wireless device and receiving a second IE indicating an action to buffer data intended for the wireless device, buffering the data intended for the wireless device, receiving a third IE indicating the identity of the wireless device and receiving a fourth IE indicating an action to stop buffering data and release the buffered data intended for the wireless device. The network entity then may transmit at least a portion of the buffered data to the wireless device.

Methods for operating a UE, a network node, a Session Management Function (SMF) and a Unified Data Management (UDM) are disclosed. The methods include transmitting, by a UE, a Protocol Data Unit (PDU) Session Establishment Request message toward an SMF in the communication network (902A), and receiving at the UE a policy decision on security protection of User Plane (UP) data terminating in a RAN for the PDU Session (904A). The policy decision received at the UE may be in accordance with a UP security policy provided by the SMF to the RAN during PDU Session Establishment. Also disclosed are a UE, network node, SMF and UDM.

The present disclosure discloses a method and apparatus for processing information. The method for processing information comprises: retrieving, by a first base station, user context information of a User Equipment (UE) from a second base station by initiating a procedure to the second base station for retrieving the user context information, wherein the user context information doesn't include user history information; updating, by the first base station, bearer path information and resuming the user context information by initiating a path switch request message to a device in a core network; and performing, by the first base station, one or more of the following operations after the UE resumes to a connected state: re-starting to collect user history information, and re-retrieving user history information from the UE through an air interface.

The present disclosure relates to methods and devices for wireless communication of an apparatus, e.g., a UE. In one aspect, the apparatus may determine whether a connection of a video call is interrupted, the video call including a plurality of decoded frames. The apparatus may also determine, if the connection of the video call is interrupted, whether one or more decoded frames of the plurality of decoded frames are suitable for artificial frame generation. The apparatus may also generate one or more artificial frames based on the one or more decoded frames and an audio feed from a transmitting device. Additionally, the apparatus may determine whether the one or more artificial frames are suitable for a facial model call. The apparatus may also establish a facial model call based on a combination of the one or more artificial frames and the audio feed from the transmitting device.

A 5G communication system or pre-5G communication system for supporting a higher data rate than that of a beyond 4G communication system such as an LTE is provided. A method by an apparatus for controlling buffers in a wireless communication system comprises storing information related to a packet in at least one of a first buffer or a second buffer, transmitting data generated based on the packet, and, when an acknowledgement signal is received for the data, discarding the information.

A method for reducing latency during handover of user equipment (UE) between wireless base stations includes (a) receiving, at a network hub in an edge communication network, a first wireless signaling message from a source wireless base station, (b) determining, from the first wireless signaling message at the network hub, occurrence of a handover of UE from the source wireless base station to a target wireless base station, (c) in response to determining occurrence of the handover, translating, at the network hub, an address of first data packets intended for the UE from an address of the source wireless base station to an address of the target wireless base station, and (d) forwarding the first data packets from the network hub to the target wireless base station.

A method for reducing latency during handover of user equipment (UE) between wireless base stations includes (a) receiving, at a network hub in an edge communication network, a first wireless signaling message from a source wireless base station, (b) determining, from the first wireless signaling message at the network hub, occurrence of a handover of UE from the source wireless base station to a target wireless base station, (c) in response to determining occurrence of the handover, translating, at the network hub, an address of first data packets intended for the UE from an address of the source wireless base station to an address of the target wireless base station, and (d) forwarding the first data packets from the network hub to the target wireless base station.

A method, system and computer readable media for reducing Packet Gateway (PGW) initiated signaling with a Serving Gateway (SGW) is presented. In one example embodiment a method for reducing Packet Gateway (PGW) initiated signaling with a Serving Gateway (SGW), includes determining by the PGW that a Packet Data Network (PDN) is undergoing S1-handover

with the SGW-relocation; buffering, by the PGW, bearer procedure messages and starting a guard timer; and re-attempting the buffered messages until a condition has been met.

A method, system and computer readable media for reducing Packet Gateway (PGW) initiated signaling with a Serving Gateway (SGW) is presented. In one example embodiment a method for reducing Packet Gateway (PGW) initiated signaling with a Serving Gateway (SGW), includes determining by the PGW that a Packet Data Network (PDN) is undergoing S1-handover

with the SGW-relocation; buffering, by the PGW, bearer procedure messages and starting a guard timer; and re-attempting the buffered messages until a condition has been met.