A service function chain (SFC) based multi-tenancy processing method. The method includes collecting data sets from service function chain enabled domains through tenant aware service function delegators and utilizing the data sets for a massive data processing function. A first delegator among the tenant aware service function delegators collects a first data set from a first service function in an instance of a first service function chain enabled domain among the service function chain enabled domains and sends the first data set to a tenant aware service function. A second delegator among the tenant aware service function delegators collects a second data set from a second service function in an instance of a second service function chain enabled domain among the service function chain enabled domains and sends the second data set to the tenant aware service function.

A system for delivering notification messages across different notification media comprises a processor. A processor is configured to provide an indication of a new platform notification channel to one or more platform notification services. The indication is provided to one of the one or more platform notification services through a communication module specific to the one of the one or more platform notification services. The processor is configured to create a mapping from a new universal notification channel to a set of one or more platform notification channel identifiers. Each platform notification channel identifier of the set of platform notification channel identifiers is received from a platform notification service. The processor is configured to provide the set of one or more platform notification channel identifiers to a content provider of the new universal notification channel. The processor is coupled to the memory and is configured to store instructions.

A method, a system, and a non-transitory storage medium are described in which a AI-based self-management network service is provided. The AI-based self-management network service may include AI-based self-routing management, AI-based self-capacity management, and AI-based self-fault and recovery management for a self-managed network and services. The AI-based self-routing management service may calculate predicted utilization values of network resources of a network path, and calculate a predicted path weight based on the predicted utilization values. The AI-based self-fault and recovery management service may refine the identification of probable causes of failures and selection of recovery actions, and generate new probable causes of failures and new recovery actions based on a machine learning model.

A system for delivering notification messages across different notification media comprises a processor. A processor is configured to provide an indication of a new platform notification channel to one or more platform notification services. The indication is provided to one of the one or more platform notification services through a communication module specific to the one of the one or more platform notification services. The processor is configured to create a mapping from a new universal notification channel to a set of one or more platform notification channel identifiers. Each platform notification channel identifier of the set of platform notification channel identifiers is received from a platform notification service. The processor is configured to provide the set of one or more platform notification channel identifiers to a content provider of the new universal notification channel. The processor is coupled to the memory and is configured to store instructions.

In a communication network with separate data planes including a control plane and a user plane, an application function is provided as a combination of an application function control plane (AF-CP) part operating in the network's control plane and an application function user plane (AF-UP) part operating in the network's user plane. The application function user plane part may be configured for the application-specific processing of user data, and instanced multiple times. The application function control plane part may be configured to support selecting an optimal instance of the application function user plane part for a particular UE.

Embodiments of the present disclosure provide a routing method and device. The method includes: receiving an access request from a user, wherein the access request points to a page, obtaining user attribute information of the user based on the access request, determining, based on at least a part of the user attribute information and according to a preset rule, a server cluster, wherein the server cluster is configured to provide a service on the page for the user, and routing the access request to the server cluster.

Network requests can be automatically routed between two or more computer subsystems in some examples. In one such example, a system can determine that a user is eligible for a service based on usage data relating to an account of the user. Based on determining that the account is eligible for the service, the system can activate the service for the user by communicating with a service subsystem. Subsequent to activating the service for the user, the system can receive a network request associated with the user and determine that the network request has a characteristic. Based on determining that the network request has the characteristic, the system can forward the request to the service subsystem. The service subsystem can complete the network request using the service.

In one embodiment, an apparatus includes one or more processors and one or more computer-readable non-transitory storage media coupled to the one or more processors. The one or more computer-readable non-transitory storage media include instructions that, when executed by the one or more processors, cause the apparatus to perform operations including receiving a user credential from a remote access client within a network and communicating the user credential to an authentication, authorization and accounting (AAA) server within the network. The operations also include receiving a user attribute from the AAA server and generating a contextual label based on the user attribute. The contextual label includes routing instructions associated with traffic behavior within the network. The operations further include advertising a control message, which includes the contextual label, to the remote access client.

A telecommunication device configured to select one of a plurality of network connectivities of the telecommunication device to use for transmission of a network packet is described herein. The telecommunication device may select the network connectivity based on user routing criteria, connectivity metrics, or transmission times. The user routing criteria may be dynamically updated during a communication or connection, affecting selection of the network connectivity for further network packets. The network connectivities may be respectively associated with different network operators. Also, the telecommunication device may select a first network connectivity for transmitting a first network packet and a second network connectivity for transmitting a second network packet. Further, the telecommunication device may select a first network connectivity for uplink communications and a second network connectivity for downlink communications.

A system and method for adaptive traffic path management, the method including: receiving at least one packet associated with a traffic flow; determining whether the traffic flow is a roaming traffic flow; determining application parameters associated with the at least one packet; determining attributes correlated with the traffic flow associated with the at least one packet; analyzing the application parameters and attributes to determine a Network Address Translation (NAT) pool for the traffic flow; determining if a modified NAT is needed based on the NAT pool for the traffic flow; if a modified NAT is needed, modifying the NAT for the at least one packet associated with the traffic flow; and sending the at least one packet and the traffic flow associated with the at least one packet to a path associated with the modified NAT.