A method for correlating data of a terminal device and an apparatus are provided, to correlate data of a single terminal device by a RAN side, and further analyze the data of the terminal device. The method is: A first device obtains first data of a terminal device on a second device, where the first data includes first correlation information, the first correlation information is used to correlate the first data with second data of the terminal device on a first access network device, the second data includes the first correlation information, and there are one or more terminal devices. The first device determines a first identifier of the terminal device, and sends the first correlation information and the first identifier of the terminal device to a second access network device.

A method for correlating data of a terminal device and an apparatus are provided, to correlate data of a single terminal device by a RAN side, and further analyze the data of the terminal device. The method is: A first device obtains first data of a terminal device on a second device, where the first data includes first correlation information, the first correlation information is used to correlate the first data with second data of the terminal device on a first access network device, the second data includes the first correlation information, and there are one or more terminal devices. The first device determines a first identifier of the terminal device, and sends the first correlation information and the first identifier of the terminal device to a second access network device.

A wireless user device uses a wireless network slice. To use the slice, the wireless user device exchanges source signaling with a source Access and Mobility Management Function (AMF). During the exchange of the source signaling, the wireless user device exchanges target signaling with target AMFs. The wireless user device determines AMF characteristics of the target AMFs based on the target signaling. The wireless user device selects one of the target AMFs based on the AMF characteristics and slice requirements of the wireless network slice. The wireless user device exchanges slice signaling with the selected one of the target AMFs, and in response, exchanges data with the wireless network slice.

A wireless user device uses a wireless network slice. To use the slice, the wireless user device exchanges source signaling with a source Access and Mobility Management Function (AMF). During the exchange of the source signaling, the wireless user device exchanges target signaling with target AMFs. The wireless user device determines AMF characteristics of the target AMFs based on the target signaling. The wireless user device selects one of the target AMFs based on the AMF characteristics and slice requirements of the wireless network slice. The wireless user device exchanges slice signaling with the selected one of the target AMFs, and in response, exchanges data with the wireless network slice.

A method and a network function of an access network for supporting an initial access of UE through the steps of: receiving a request for a first service operation for initial context setup from an AMF of a core network through an interface of service-based architecture between the AMF and the network function; and establishing a bearer related to a user plane function in the access network based on information included in the first service operation are provided.

A method and a network function of an access network for supporting an initial access of UE through the steps of: receiving a request for a first service operation for initial context setup from an AMF of a core network through an interface of service-based architecture between the AMF and the network function; and establishing a bearer related to a user plane function in the access network based on information included in the first service operation are provided.

A wireless communication network serves a Network Exposure Function (NEF) slice to User Equipment (UE). An Access and Mobility Management Function (AMF) selects a NEF slice for the UE. A Session Management Function (SMF) selects a NEF address for the NEF slice for the UE. A User Plane Function (UPF) exchanges Application Programming Interface (API) calls and responses between the UE and a NEF based on the NEF address. The NEF exchanges the API messages with the UE over the UPF. The NEF slice may comprise an edge NEF slice that is selected based on the geographic location of the UE and that features a local NEF element that is coupled to a core NEF element.

A wireless communication network serves a Network Exposure Function (NEF) slice to User Equipment (UE). An Access and Mobility Management Function (AMF) selects a NEF slice for the UE. A Session Management Function (SMF) selects a NEF address for the NEF slice for the UE. A User Plane Function (UPF) exchanges Application Programming Interface (API) calls and responses between the UE and a NEF based on the NEF address. The NEF exchanges the API messages with the UE over the UPF. The NEF slice may comprise an edge NEF slice that is selected based on the geographic location of the UE and that features a local NEF element that is coupled to a core NEF element.

The present disclosure aims to provide a communication system capable of achieving advanced security in a 5G communication system. The communication system according to the present disclosure includes: a communication terminal (10); an Access and Mobility Management (AMF) entity (20) configured to execute Mobility Management (MM) processing regarding the communication terminal (10); and a Session Management Function (SMF) entity (30) configured to execute Session Management (SM) processing regarding the communication terminal (10), in which the communication terminal (10) sends an MM message used in the MM processing, a first security key having been applied to the MM message, between the communication terminal and the AMF entity (20), and sends an SM message used in the SM processing, a second security key having been applied to the SM message, between the communication terminal and the SMF entity (30) via the AMF entity (20).

The present disclosure aims to provide a communication system capable of achieving advanced security in a 5G communication system. The communication system according to the present disclosure includes: a communication terminal (10); an Access and Mobility Management (AMF) entity (20) configured to execute Mobility Management (MM) processing regarding the communication terminal (10); and a Session Management Function (SMF) entity (30) configured to execute Session Management (SM) processing regarding the communication terminal (10), in which the communication terminal (10) sends an MM message used in the MM processing, a first security key having been applied to the MM message, between the communication terminal and the AMF entity (20), and sends an SM message used in the SM processing, a second security key having been applied to the SM message, between the communication terminal and the SMF entity (30) via the AMF entity (20).