A device may receive information associated with a network resource request. The network resource request may be a request, by a user device, for access to a network resource associated with a network. The device may determine a subscriber class associated with the user device based on receiving the information associated with the network resource request. The device may determine a service type associated with the network resource request based on receiving the information associated with the network resource request. The device may determine an allocation and retention priority (ARP) level based on the determined subscriber class and the determined service type. The device may assign the ARP level to the network resource.

A method for determining a Quality of Service (QoS) policy can be based on requested bandwidth. The method may initially receive a connection request which includes a requested bandwidth that corresponds to an application. The method may then determine a policy for an application data flow associated with the application based on the connection request. A bandwidth designation, which is based on the requested bandwidth, may be assigned to the application data flow based on the determined policy. Finally, the policy and the bandwidth designation may be provided so that a bearer can be assigned.

A method of queuing network traffic events on a client terminal. The method comprises monitoring, in run time, a plurality of network traffic events triggered by a plurality of applications executed on a client terminal, extracting a plurality of network traffic event characteristics of each of the plurality of network traffic events, classifying each one of the plurality of network traffic events according to a respective the plurality of network traffic event characteristics, clustering the plurality of network traffic events in a plurality of clusters according to the classifying, and managing an opening a plurality data connections between the client terminal and a network such that the content of each cluster of the plurality of clusters is transmitted in another of the plurality data connections.

Resources can be managed by predicting resource usage. For example, a first computing resource having a first attribute with a first value can be identified. A second computing resource having a second attribute with a second value can also be identified. A configuration parameter can be determined based on at least one of historical data or a predetermined probability. A predetermined model can be used to predict a first amount of interest in the first computing resource based on the first value, the second value, and the configuration parameter. The predetermined model can also be used to predict a second amount of interest for the second computing resource based on the first value, the second value, and the configuration parameter. Information related to the predicted first amount of interest in the first computing resource and the predicted second amount of interest in the second computing resource can be transmitted.

In one embodiment of a network pipe optimization method, a network element may obtain at least one of a push pipe utilization report and a pull pipe utilization report from each distribution node of the content delivery network. Based on the utilization reports, the network element may determine new push pipe weights and new pull pipe weights for distribution pipes associated with each distribution node of the content delivery network. Using at least one of the new push pipe weights and new pull pipe weights, a network pipe utilization model associated with the content delivery network may be simulated. Responsive to determining that the simulated network pipe utilization model yields an improved utilization of the content delivery network, the new push pipe weights and new pull pipe weights may be distributed to each distribution node in the content delivery network.

A non-transitory computer readable medium storing instructions which, when executed by one or more hardware processors, causes performance of operations including: determining a location associated with a client device, assigning a priority to packets, received from the client device or targeted for the client device, based at least on the location associated with the client device, and processing packets based on the priority assigned to the packets.

The present application provides a network resource processing method, apparatus and an instant messaging system. The method comprises: a first client receives network resource transferring information input in an instant messaging window by a first user using the first client during instant messaging with a second client; the first client transmits the network resource transferring information to a server side, so that the server side transfers the network resource of the first user to a second user using the second client according to the network resource transferring information. The present application can improve transferring efficiency of network resources.

Disclosed are systems, methods, and non-transitory computer-readable storage media for automatically updating a hybrid web application. In some implementations, a computing device can be configured with a hybrid application that includes a native layer and a web view. The native layer can provide access to native features of the computing device while the web view can provide web client features, such as graphical user interfaces and server communication functionality. When the hybrid application is invoked, the native layer can load a resource bundle from local storage. The resource bundle can include the web code needed to present the web view graphical user interface, manage application data, and/or facilitate communication with the web server. To update the hybrid application, the application can download an updated resource bundle from the web server and reload the web code from the resource bundle.

A system and method for sharing resources among application modules includes receiving, on an application including a plurality of modules, a resource from a server; determining a storage position identifier corresponding to an identifier of the resource and indicative of a storage position in a database for storing resources dedicated for the application; and storing the resource in the database based on the determined identifier for sharing among the plurality of modules.

Techniques for electronic distribution of software applications to users and devices belonging to a single network domain, wherein such applications are configurable to provide multiple service levels. In an aspect, a first service level is provided to users and/or devices sharing the same network domain. Upon request by an admin of the network domain, an application control server verifies the admin's control of the domain, as well as fulfillment of conditions for accessing a second service level. Upon verification of control and fulfillment, the application control server allows access by the admin to an admin portal. The application control server further reassigns the service level of users and/or devices sharing the network domain from the first service level to the second service level.