The cooperative controlling of an operation of an application that is used by a user equipment is implemented in a wireless network by obtaining scheduled shared resource rate information and channel condition information for bearers sharing network resources. User equipment policies for the user equipment associated with the bearers can be performed based on the scheduled shared resource rate information, the channel condition information, and available video rate information in order to invoke throughput restrictions for the user equipment. The user equipment policies can be used by application functions to cooperatively control the operation of applications among a number of user equipments.

Disclosed are application-aware packet transmission methods and apparatuses for a terminal. The application-aware packet transmission method comprises classifying applications according to delay sensitivities of the applications, determining a transmission pattern of packets for the classified applications; and transmitting the packets based on the determined transmission pattern. Thus, a battery of the terminal may be efficiently managed by applying user preferences and configuring transmission patterns of packets to be transmitted for each application differently. In addition, degradation of application performances and user experiences for the uses of applications can be prevented.

This application discloses a data traffic management method and apparatus. The method includes: obtaining traffic control information of a first application and a data traffic value used by the first application, where the traffic control information includes at least an upper traffic threshold; and disconnecting a data connection of the first application when the data traffic value used by the first application is greater than or equal to the upper traffic threshold included in the traffic control information of the first application. In the foregoing solution, real-time traffic management on a single application is implemented, so that a user instantly modifies traffic control information according to a requirement, to manage data traffic in real time.

This application discloses a data traffic management method and apparatus. The method includes: obtaining traffic control information of a first application and a data traffic value used by the first application, where the traffic control information includes at least an upper traffic threshold; and disconnecting a data connection of the first application when the data traffic value used by the first application is greater than or equal to the upper traffic threshold included in the traffic control information of the first application. In the foregoing solution, real-time traffic management on a single application is implemented, so that a user instantly modifies traffic control information according to a requirement, to manage data traffic in real time.

A system and a method for prioritizing network traffic using application awareness and network awareness in a network environment is disclosed. An exemplary method can include receiving a network traffic priority for network traffic associated with a job performed by a distributed application; and based on the network traffic priority, assigning the network traffic to a network classification model, such as an access control list, associated with a network element for directing the network traffic in a network. The network classification model is associated with a network traffic priority class having defined quality of service (QoS) features, such that the network traffic traverses the network according to the defined QoS features.

A method for congestion management on a network including: determining whether a cell on the network is congested; identifying at least one heavy user on the cell; determine traffic flow criteria of the at least one heavy user; and shape network traffic of the at least one heavy user based on the traffic flow criteria of the heavy user. A system for congestion management on a network including: a QoE module configured to determine whether a cell on the network is congested; an analysis module configured to identify at least one heavy user on the cell and determine traffic flow criteria of the at least one heavy user; and at least one shaper configured to shape network traffic of the at least one heavy user based on the traffic flow criteria of the heavy user.

A network optimization platform, comprising: storage configured to store QoS and latency requirement for a plurality of applications, protocols associated with various data traffic generated by the plurality of applications; a processor configured to execute communication applications, the communication applications configured to cause the processor to: receive data traffic from the plurality of applications, classify the data traffic based on at least one of the QoS and latency requirement associated with the plurality of applications, determine a priority for packets comprising the data traffic, select a bearer for the packets based on the classification and priority, and deliver the packets to the bearer selected therefore.

A network optimization platform, comprising: storage configured to store QoS and latency requirement for a plurality of applications, protocols associated with various data traffic generated by the plurality of applications; a processor configured to execute communication applications, the communication applications configured to cause the processor to: receive data traffic from the plurality of applications, classify the data traffic based on at least one of the QoS and latency requirement associated with the plurality of applications, determine a priority for packets comprising the data traffic, select a bearer for the packets based on the classification and priority, and deliver the packets to the bearer selected therefore.

A network device may receive, from a user equipment, a dataset identifying: applications utilized by the user equipment, network protocol types associated with the applications, and network addresses associated with the applications. The network device may segregate the dataset based on the network protocol types and to generate a segregated dataset. The network device may determine, based on the segregated dataset, a policy that causes particular application traffic associated with a particular network protocol type to be allocated to a particular network slice of the network. The network device may cause the policy to be provided to the user equipment to cause the user equipment to allocate the particular application traffic associated with the particular network protocol type to the particular network slice of the network.

A network device may receive, from a user equipment, a dataset identifying: applications utilized by the user equipment, network protocol types associated with the applications, and network addresses associated with the applications. The network device may segregate the dataset based on the network protocol types and to generate a segregated dataset. The network device may determine, based on the segregated dataset, a policy that causes particular application traffic associated with a particular network protocol type to be allocated to a particular network slice of the network. The network device may cause the policy to be provided to the user equipment to cause the user equipment to allocate the particular application traffic associated with the particular network protocol type to the particular network slice of the network.