Embodiments of the present disclosure describe systems, devices, and methods for charging architectures in cellular networks. Various embodiments may include an eNB collecting information about licensed and unlicensed spectrum resource usage on a per bearer basis and transmitting the information to a core network node. Other embodiments may be described or claimed.

Systems and methods are disclosed herein that relate to Time Sensitive Communication (TSC) to Fifth Generation (5G) Quality of Service (QoS) mapping and associated QoS binding. In one embodiment, a method for QoS mapping in a 5G System (5GS) for a virtual Time Sensitive Networking (TSN) bridge comprises, at a first network function, obtaining information from a TSN Application Function (AF) comprising baseline TSC QoS parameters and one or more additional parameters comprising either or both of: (a) one or more additional TSC QoS attributes and (b) one or more additional traffic attributes. The method further comprises, at the first network function, generating one or more Policy and Charging Control (PCC) rules based on the obtained information and providing the one or more PCC rules to a second network function. The method further comprises, at the second network function, performing QoS binding based on the one or more PCC rules.

Systems and methods described herein include receiving, at a network device and from a session management device, a first message that includes a first identifier associated with a subscriber and a second identifier associated with a first service that is charged using an online charging system. The network device transmits a second message that indicates a first time period in which to report data usage associated with the first service and a second time period in which to report data usage associated with one or more second services that are charged using an offline charging system. The network device receives first data usage information associated with the first service after the first time period and second data usage information associated with the one or more second services after the second time period. The network device processes the data usage information.

Systems and methods are provided for utilizing an asynchronous report feature when a time or volume reporting trigger is unavailable. The systems and method can include receiving node level capabilities from at least one of a plurality of user plane functions, receiving an asynchronous report from the at least one of the plurality of user plane functions, determining an absence of a reporting trigger based on charging information associated with a policy control function and trigger information associated with a charging function, selecting a user plane function from the plurality of user plane functions based on the asynchronous report, and generating a usage reporting rule without the reporting trigger to be provided to the user plane function from the plurality of user plane functions.

Embodiments of this application disclose a charging method and related devices. An example charging method includes: sending a charging start request for a packet data unit (PDU) session to a charging function apparatus, where the charging start request carries an indication receiving address; receiving an indication message that is sent by the charging function apparatus based on the indication receiving address, where the indication message carries an indication type; and performing charging processing based on the indication type.

Example charging methods and apparatus are described. One example method includes sending a service resource create request to a charging system by a charging trigger apparatus. The charging trigger apparatus receives a service resource create response sent by the charging system. The service resource create request is used to request the charging system to create a service resource corresponding to a service in a session. The session is used to provide a data connection service to user equipment. The service resource is used to manage requesting for a quota for the service in the session and/or manage reporting of usage information of the service in the session. The service resource create response includes a first resource identifier, and the first resource identifier is used to identify the service resource that corresponds to the service in the session and that is created by the charging system.

A first network device may receive a protocol data unit (PDU) session establishment or modification request, and may perform one or more actions based on the PDU session establishment or modification request. The first network device may receive, based on performing the one or more actions, a first message indicating that the PDU session is authenticated and authorized, and may select a second network device associated with establishing or modifying a management policy for the PDU session. The first network device may receive, from the second network device, a second message indicating whether to wait for receipt of a charging data response, to a charging data request, before interacting with a third network device, and may provide the charging data request to a fourth network device while interacting with the third network device when the second message indicates not to wait for receipt of the charging data response.

As described herein, a system, method, and computer program are provided for dynamic switching between online and offline charging for a network session. In use, a network session is monitored. Additionally, during the network session, one or more characteristics of the network session are determined, based on the monitoring of the network session. Further, a dynamic selection is made between offline charging and online charging for the network session, based on the one or more characteristics of the network session.

A system for preserving charging event messages in a mobile telecommunications network when a charging server is unavailable includes a message broker comprising persistent storage. The system also includes a network element that generates a charging event message, attempts to send the charging event message to a charging server, and writes the charging event message to the message broker in response to determining that the attempt to send the charging event message to the charging server has failed. The system also includes a replay agent that subscribes to the message broker for notifications associated with the charging server, receives a notification from the message broker about the charging event message, reads the charging event message from the message broker, and causes the charging event message to be sent to the charging server when the charging server is available.

A method, computer readable media and a system are disclosed to identify a mechanism to be able to supply multiple “Failed Rule ID” in a single PFCP response message from User Plane (UP) to Control Plane (CP) via the Sx interface for 4G and via the N4 interface for 5G. In one embodiment, a method for operating a wireless network device including a User Plane (UP) and a Control Plane (CP) in communication with the UP, includes configuring, by the CP, multiple rules in the UP; identifying, by the UP, multiple failed rule Identifiers (IDs); supplying, in a single Packet Forwarding Control Protocol (PFCP) response message from the UP to a CP, the multiple failed rule IDs; and determining, by the CP, further action to be taken based on the failed rules.