The disclosure relates to a communication scheme and system for converging a 5th generation (5G) communication system for supporting a data rate higher than that of a 4th generation (4G) system with an Internet of things (IoT) technology. The disclosure is applicable to intelligent services (e.g., smart home, smart building, smart city, smart car or connected car, health care, digital education, retail, and security and safety-related services) based on the 5G communication technology and the IoT-related technology. A method for a control plane to transmit rule information to a user plane is provided. The method includes receiving PPC rule information from a PCF, identifying predetermined policy rule sets for a PDR set based on the PCC rule information, identifying rule set information corresponding to the PDR set, and transmitting the rule set information to the user plane, wherein the PDR set includes multiple pieces of PDR information.

Technology to respond to a termination reason of an accounting record via an improved charging component is disclosed. The disclosed subject matter can be backwards compatible to support responding to a conventional SIP BYE method and a conventional SIP CANCEL method. Additionally, the disclosed subject matter can respond to other SIP methods, empty reason-headers, etc. In an aspect, a reason-header can be forced into an accounting record based on received session termination information. In an embodiment, the reason-header can be determined to satisfy a rule related to acceptable reason-headers. Where the rule is determined to be unsatisfied, a query can be generated toward a device that supported the now terminated communication, wherein a response to the query can comprise another reason-header that can be determined to satisfy the rule. The accounting record can be updated based on the other reason-header and employed in generating a charging data record that can alter corresponding billing.

Operations include determining billing for data being transmitted out of an Autonomous System (AS). An internal node in the AS determines billing for a packet transmitted out of the AS based at least on an egress path of the packet. The packet is received at the internal node in the AS The internal node selects an egress path of the packet based on one or more characteristics of the packet. The egress path is mapped directly or indirectly to a billing counter. The billing counter is incremented based on (a) the transmission of the packet on the overlay network to the egress gateway and (b) transmission of the packet out of the AS on the selected egress path.

In order for charging SDT and MTC device trigger over control plane, there is provided a network node (40) that relays messages over a control plane (T5 and Tsp) between an MTC device (10) and an SCS (50). The network node (40) counts the number of messages successfully relayed, and generates a CDR in accordance with the counted number. The messages are SDT messages delivered from the MTC device (10) to the SCS (50), SDT messages delivered from the SCS (50) to the MTC device (10), or MTC device trigger messages delivered from the SCS (50) to the MTC device (10). The network node (40) transfers the CDR to an OCF (31) or a CDF (32).

Operations include determining billing for data being transmitted out of an Autonomous System (AS). An internal node in the AS determines billing for a packet transmitted out of the AS based at least on an egress path of the packet. The packet is received at the internal node in the AS via a particular overlay network of a plurality of overlay networks. Each overlay network may be associated with a corresponding tenant of a set of tenants. The internal node selects an egress path of the packet based on one or more characteristics of the packet. The egress path and the overlay network are mapped directly or indirectly to a billing counter. The billing counter is incremented based on (a) the transmission of the packet on the overlay network to the egress gateway and (b) transmission of the packet out of the AS on the selected egress path.

The teachings herein disclose a method and apparatus for data mediation in a telecommunication network provides advantageous processing of an incoming data stream in a matter that reduces the amount of decoding needed for processing and correspondingly reduces the amount of re-encoding needed for transport of the processed data stream. These teachings make use of a working data structure that provides a memory-efficient data structure for processing targeted data items in the data stream and are implemented, for example, in a data mediation node that includes one or more communication interfaces, e.g., for receiving incoming data streams for data-mediation processing, and for sending along processed data streams to targeted recipients.

Methods for implementing different pricing configurations by a server system are disclosed. The server system provides an application programming interface (API) for one or more network operators and receives, from a network operator via the API, a first request for a pricing configuration for network access for one or more internet protocol (IP) addresses hosted by the network operator. The server system retrieves the pricing configuration and provides a response to the first request to the network operator via the API that includes the pricing configuration.

A distributed payment system integrated in network resources allows for the distributed processing of digital currency transactions in existing network elements and allows for each node to act as a revenue source by charging for provided services. The systems and methods can provide a requesting entity the means for payment of use of the network resources of a provisioning entity. The network resources that are used can enable the provision of services that can include packet routing and forwarding, access to resources such an antennae and delivery of content.

In order for charging SDT and MTC device trigger over control plane, there is provided a network node (40) that relays messages over a control plane (T5 and Tsp) between an MTC device (10) and an SCS (50). The network node (40) counts the number of messages successfully relayed, and generates a CDR in accordance with the counted number. The messages are SDT messages delivered from the MTC device (10) to the SCS (50), SDT messages delivered from the SCS (50) to the MTC device (10), or MTC device trigger messages delivered from the SCS (50) to the MTC device (10). The network node (40) transfers the CDR to an OCF (31) or a CDF (32).

Operations include determining billing for data being transmitted out of an Autonomous System (AS). An internal node in the AS determines billing for a packet transmitted out of the AS based at least on an egress path of the packet. The packet is received at the internal node in the AS via a particular overlay network of a plurality of overlay networks. Each overlay network may be associated with a corresponding tenant of a set of tenants. The internal node selects an egress path of the packet based on one or more characteristics of the packet. The egress path and the overlay network are mapped directly or indirectly to a billing counter. The billing counter is incremented based on (a) the transmission of the packet on the overlay network to the egress gateway and (b) transmission of the packet out of the AS on the selected egress path.