The present system relates to a server for providing data connectivity in a packet mode communication network. The server has a processor arranged to receive, via a first brokerage control unit, a charging rule request to allow one or more communication devices in the communication network to exchange with an application server data charged under operator specific billing. The server determines availability of the operator specific billing based on network parameters and the charging rule request, and updates the database of a Policy and Charging Rules Function (PCRF) entity in the communication network based on available operator specific billing and an identifier for the application server, for subsequent charging of data exchanged with the application server at said available operator specific billing.

Techniques and architectures enable a wireless communications network to allow for dynamic changes or on-the-fly selections of Fair Usage thresholds or other thresholds and to allow for the Fair Usage thresholds to be associated with individual subscribers of the wireless communications network. Subscriber groups of relatively small granularity or individual subscribers may be assigned a profile that sets forth actions to be applied to subscribers in response to the subscribers reaching particular thresholds of data usage.

Techniques for distributed charging in digital telecommunications networks are disclosed. In one particular embodiment, the techniques may be realized as a method that includes provisioning a data path that carries a plurality of network flows, receiving a shared usage quota associated with the plurality of network flows, and allocating the shared usage quota among the plurality of network flows. For each network flow among the plurality of network flows, the method includes providing the data path with data indicative of an amount of the shared usage quota allocated to the network flow, configuring the data path to collect metering data associated with the network flow, and configuring the data path to enforce the shared usage quota based on the metering data associated with the network flow and the amount of the shared usage quota allocated to the network flow.

Techniques for distributed charging in digital telecommunications networks are disclosed. In one particular embodiment, the techniques may be realized as a method that includes provisioning a data path that carries a plurality of network flows, receiving a shared usage quota associated with the plurality of network flows, and allocating the shared usage quota among the plurality of network flows. For each network flow among the plurality of network flows, the method includes providing the data path with data indicative of an amount of the shared usage quota allocated to the network flow, configuring the data path to collect metering data associated with the network flow, and configuring the data path to enforce the shared usage quota based on the metering data associated with the network flow and the amount of the shared usage quota allocated to the network flow.

Techniques and architectures enable a wireless communications network to allow for dynamic changes or on-the-fly selections of Fair Usage thresholds or other thresholds and to allow for the Fair Usage thresholds to be associated with individual subscribers of the wireless communications network. Subscriber groups of relatively small granularity or individual subscribers may be assigned a profile that sets forth actions to be applied to subscribers in response to the subscribers reaching particular thresholds of data usage.

Systems and methods include obtaining monitored traffic from an S1 interface; detecting a Secondary Radio Access Technology (RAT) Data Usage Report (DUR) in the monitored traffic; determining whether the Secondary RAT DUR relates to a 5G Non-Standard Architecture (NSA), and, if so, determining an address of a gNodeB in the Secondary RAT DUR; and storing the address of the gNodeB in a database. The systems and methods can include, for a call, updating a Call Detail Record (CDR) to reflect one of 5G NSA and 4G based on whether an address in the CDR is in the database.

This patent application provides a multi-connectivity data reporting method, including: obtaining, by a first network device, a first data volume report, where the first data volume report is used to indicate a volume of data that are of a terminal device and that pass through a second network device; and sending, by the first network device, the first data volume report to a third network device. The first data volume report includes one or more of QoS flow identifiers (QFIs) of one or more quality of service QoS flows, identifiers of one or more protocol data unit (PDU) sessions to which the one or more QoS flows belong, or data volumes of the one or more QoS flows.

Systems and methods include obtaining monitored traffic from an S1 interface; detecting a Secondary Radio Access Technology (RAT) Data Usage Report (DUR) in the monitored traffic; determining whether the Secondary RAT DUR relates to a 5G Non-Standard Architecture (NSA), and, if so, determining an address of a gNodeB in the Secondary RAT DUR; and storing the address of the gNodeB in a database. The systems and methods can include, for a call, updating a Call Detail Record (CDR) to reflect one of 5G NSA and 4G based on whether an address in the CDR is in the database.

Access to a communications network may be provided via a data provider that may charge for access. In some cases, the access fee may be related to the amount of network resources consumed (e.g., amount of data downloaded or bandwidth used). In some cases, a user may have access to a particular amount of data provider resources and be required to pay an additional fee for using resources in excess of the particular amount. To assist the user in managing his data resource consumption, a resource utilization component may provide different alerts and notices informing the user of current consumption, expected future consumption, and recommendations for reducing data provider resources consumed (e.g., stopping particular processes or data provider requests, such as downloading media). If several electronic devices in a network are connected to the same data provider resources, a network component may manage the data provider resource use among the several electronic devices (e.g., allow only particular users or devices access).

This patent application provides a multi-connectivity data reporting method, including: obtaining, by a first network device, a first data volume report, where the first data volume report is used to indicate a volume of data that are of a terminal device and that pass through a second network device; and sending, by the first network device, the first data volume report to a third network device. The first data volume report includes one or more of QoS flow identifiers (QFIs) of one or more quality of service QoS flows, identifiers of one or more protocol data unit (PDU) sessions to which the one or more QoS flows belong, or data volumes of the one or more QoS flows.