A method and system for subscriber awareness for traffic flows in a computer network. The system including: a Subscriber Awareness Control Plane (SACP) module configured to register as a network node and subscribe to at least one network function on the network; at least one processing module configured to request and receive information of traffic flow parameters and subscriber parameters for the traffic flows from the at least one network function; and a subscriber awareness module configured to map subscribers to traffic flows, based on the received traffic flow parameters and subscriber parameters. The method including: registering an SACP module as a network node; subscribing to at least one network functions; receiving information of traffic flow parameters and subscriber parameters for the traffic flows; and mapping subscribers to traffic flows, based on the traffic flow parameters and subscriber parameters.

A method and system for subscriber awareness for traffic flows in a computer network. The system including: a Subscriber Awareness Control Plane (SACP) module configured to register as a network node and subscribe to at least one network function on the network; at least one processing module configured to request and receive information of traffic flow parameters and subscriber parameters for the traffic flows from the at least one network function; and a subscriber awareness module configured to map subscribers to traffic flows, based on the received traffic flow parameters and subscriber parameters. The method including: registering an SACP module as a network node; subscribing to at least one network functions; receiving information of traffic flow parameters and subscriber parameters for the traffic flows; and mapping subscribers to traffic flows, based on the traffic flow parameters and subscriber parameters.

A packet switch includes a memory, and a processor coupled to the memory and configured to learn a pattern of a high-priority packet having a cyclicity, monitor a burst end point of the high-priority packet, based on a result of the learning, detect a shift of a time slot of the burst end point when a traffic flow rate of the high-priority packet changes, and determine the time slot to close transmission of a non-priority packet, based on the shift of the time slot.

In one embodiment, a device obtains quality of experience metrics for an online application. The device obtains network metrics for one or more network paths over which traffic for the online application was routed. The device identifies a lack of correlation between the quality of experience metrics for the online application and the network metrics for the one or more network paths over which traffic for the online application was routed. The device disables, based on the lack of correlation, explicit probing of the one or more network paths.

In one embodiment, a device obtains quality of experience metrics for an online application. The device obtains network metrics for one or more network paths over which traffic for the online application was routed. The device identifies a lack of correlation between the quality of experience metrics for the online application and the network metrics for the one or more network paths over which traffic for the online application was routed. The device disables, based on the lack of correlation, explicit probing of the one or more network paths.

Technologies for providing out-of-order network packet management and selective data flow splitting include a computing device. The computing device includes circuitry to identify a service data flow associated with a set of packets to be sent to a recipient computing device. The circuitry is also to determine a target quality of service for the service data flow, determine, as a function of the target quality of service, one or more radio links on which to send the packets, including determining whether to split the service data flow over multiple radio links, and send the packets through the determined one or more radio links.

Technologies for providing out-of-order network packet management and selective data flow splitting include a computing device. The computing device includes circuitry to identify a service data flow associated with a set of packets to be sent to a recipient computing device. The circuitry is also to determine a target quality of service for the service data flow, determine, as a function of the target quality of service, one or more radio links on which to send the packets, including determining whether to split the service data flow over multiple radio links, and send the packets through the determined one or more radio links.

A terminal is provided. The terminal includes a communication unit configured to perform communication, and a control unit configured to request a service with priority control related to the communication. The control unit is: an application that performs configuration related to a resource control unit for distributing communication packets associated with a communication path; or a client of the service with priority control related to the communication.

Techniques for dynamically adjusting Connected Mode Discontinuous Reception (CDRX) parameters are discussed herein. For example, a base station may receive information associated with downlink data to be sent to a user equipment (UE) and/or information associated with the UE itself. The base station may adjust CDRX parameters to be implemented on the UE based on the received information in order to maximize performance of the UE. In some examples, the base station may adjust CDRX parameters based on a traffic type (e.g., voice traffic, video traffic, data traffic, etc.) associated with the downlink data, UE state parameters associated with the UE, and/or Received Signal Strength Indicator (RSSI) data associated with the UE.

An MEP sends a traffic steering rule of an APP to a UPF network element, where the APP is installed on the MEP, and the traffic steering rule of the APP includes an IP address and/or a port number corresponding to the APP, and a steering action corresponding to the IP address and/or the port number; and the MEP receives service data that is steered by the UPF network element to the APP based on the traffic steering rule of the APP. The steered service data is processed by the APP.