The present application relates to a method and apparatus for selecting user plane function. One embodiment of the subject disclosure provides a method for selecting User Plane Function (UPF), comprising: getting, by a Session Management Function (SMF), application information in a Protocol Data Unit (PDU) session during a PDU Session Establishment procedure or during Domain Name System (DNS) Query processing; and selecting, by the SMF, the UPF based on the application information.

The present application relates to a method and apparatus for selecting user plane function. One embodiment of the subject disclosure provides a method for selecting User Plane Function (UPF), comprising: getting, by a Session Management Function (SMF), application information in a Protocol Data Unit (PDU) session during a PDU Session Establishment procedure or during Domain Name System (DNS) Query processing; and selecting, by the SMF, the UPF based on the application information.

This application discloses a service processing method for a proximity service, a device, and a system, and relates to the field of wireless communication technologies, to resolve a problem such as inappropriate charging caused because a network side does not perform, in proximity service (ProSe) communication, service supervision or service management on a data packet transmitted by remote user equipment (UE) via relay UE. In this application, a first network element (for example, an access and mobility management function AMF network element or a session management function SMF network element) may obtain, based on relay information that is received from the remote UE and that includes a relay service code or first indication information indicating that the remote UE is to transmit a service in relay mode, policy configuration information for detecting or monitoring service data forwarded by the relay UE.

This application discloses a service processing method for a proximity service, a device, and a system, and relates to the field of wireless communication technologies, to resolve a problem such as inappropriate charging caused because a network side does not perform, in proximity service (ProSe) communication, service supervision or service management on a data packet transmitted by remote user equipment (UE) via relay UE. In this application, a first network element (for example, an access and mobility management function AMF network element or a session management function SMF network element) may obtain, based on relay information that is received from the remote UE and that includes a relay service code or first indication information indicating that the remote UE is to transmit a service in relay mode, policy configuration information for detecting or monitoring service data forwarded by the relay UE.

A base station receives, from a network function, a message comprising a charging control for time service indicator, wherein the charging control for time service indicator is for a time resiliency service for a wireless device. the base station collects, based on the charging control for time service indicator, usage information associated with the time resiliency service for the wireless device. The base station sends, to a mobility management function, the usage information associated with the time resiliency service.

The present invention relates to a smartphone battery wireless charging system and application. The wireless charging application enables customers to purchase battery charge by paying a fee. The requested battery charge is provided wirelessly over-the-air using Wi-Fi by wireless charging base stations or using IoT devices and more. A server determines the battery capacity of the battery of a smartphone and based on the battery charge purchase request, battery charge is transmitted to the smartphone in the form of waves which are received by the smartphone and is converted into electric charge to recharge the battery. A user can pay a fee to receive, for example, 25%, 50%, 75%, or 100% battery charge. The charging of the phone is provided without an external connector thereby enabling individuals to use their phone for extended periods of time without running out of battery charge.

The present invention relates to a smartphone battery wireless charging system and application. The wireless charging application enables customers to purchase battery charge by paying a fee. The requested battery charge is provided wirelessly over-the-air using Wi-Fi by wireless charging base stations or using IoT devices and more. A server determines the battery capacity of the battery of a smartphone and based on the battery charge purchase request, battery charge is transmitted to the smartphone in the form of waves which are received by the smartphone and is converted into electric charge to recharge the battery. A user can pay a fee to receive, for example, 25%, 50%, 75%, or 100% battery charge. The charging of the phone is provided without an external connector thereby enabling individuals to use their phone for extended periods of time without running out of battery charge.

A network system for providing one or more services to one or more end-user devices communicatively coupled to the network system over a wireless access network, the network system comprising: a policy enforcement function, a first policy element, a second policy element, and a network element, wherein the network element is communicatively coupled to the policy enforcement function, the first policy element, and the second policy element, and wherein the network element is configured to communicate first policy information between the policy enforcement function and the first policy element, and communicate second policy information between the first policy enforcement function and the second policy element.

A network system for providing one or more services to one or more end-user devices communicatively coupled to the network system over a wireless access network, the network system comprising: a policy enforcement function, a first policy element, a second policy element, and a network element, wherein the network element is communicatively coupled to the policy enforcement function, the first policy element, and the second policy element, and wherein the network element is configured to communicate first policy information between the policy enforcement function and the first policy element, and communicate second policy information between the first policy enforcement function and the second policy element.

A node of a charging system associated with a communication network grants a charging request, with the response including a granted quota of units for authorizing consumption of the involved communication service by a user device, along with an indication of whether the granted quota applies on an immediate basis or on a deferred basis. For example, the response indicates whether quota management is active for the involved communication service, with the granted quota applying immediately to consumption of the service if quota management is active and applying on a deferred basis if quota management is inactive. Providing a granted quota while quota management is inactive offers several advantages, such as proactively providing individual charging sessions with granted units of service consumption that may be used subsequently, upon quota management becoming active, thereby avoiding the “flood” of charging session requests that would otherwise be generated upon quota management becoming active.