A system, method and computer readable storage medium are disclosed to provide dynamic network resource management in a telecommunications network where at least a portion of the network resources are located at an edge of the telecommunications network. The capacity available, the aggregate demand of resources at a given time, and the cost of the network resource demanded as well as each customers upper price limit may be considered and adjusted in real-time by different network resource allocation models.

A computer-implemented method for generating secondary notifications, the method including receiving a message; generating a primary notification of the message; updating a priority associated with the message; determining that the updated priority exceeds a threshold; and responsive to determining that the updated priority exceeds a threshold, generating a secondary notification, the secondary notification being distinct from the primary notification.

An intermediate network node manages location data of mobile terminals in a wireless communication network and includes a processing unit and a memory, which contains instructions executable by the processing unit, whereby the network node is operative to establish connection with one or more mobility management nodes in the network, establish connection with any one of network nodes requesting location data indicating the location of at least one mobile terminal, receive a request for the location data indicating the location of the at least one mobile terminal from a requesting network node of said network nodes, obtain a set of location information indicating the location of the at least one mobile terminal from at least one of the mobility management nodes, produce the requested location data from the obtained set of location information, and provide the produced location data to the requesting network node of said network nodes.

A method is provided in one example and includes receiving a request to initiate a communication flow associated with a subscriber and identifying one or more parameters to be monitored for the communication flow. The method further includes extracting one or more bits from packets associated with the communication flow; the bits are used to determine an operating system associated with the communication flow. A policy decision can be executed for the communication flow based on the operating system associated with the communication flow. In more specific examples, the bits are sent to a next destination in response to a threshold being reached for at least one of the parameters. The parameters can be associated a volume parameter or a time parameter. The policy decision could include blocking traffic associated with the subscriber, initiating billing, redirecting the communication, managing a quality of service level for the communication flow, etc.

The invention provides a method and system for sharing Wi-Fi in a Wi-Fi network using a cloud platform. To start with, the method and system enables registration of one or more Wi-Fi access points on the cloud platform and enables a client device to rent a Wi-Fi connection from owner of a Wi-Fi access point. Subsequently, the method and system enables the client device to select a Wi-Fi access point registered on the cloud platform based on usage fee, properties and signal quality. Further, the method and system performs offload optimization using an AI module by deciding whether data offloading from licensed spectrum to unlicensed spectrum is desirable or not. In response to deciding that data offload is desirable, the client device is allowed to connect to the selected Wi-Fi access point and transact with the Wi-Fi access point owner using cryptocurrencies in a blockchain-based network.

In various embodiments, boundaries of geo-fences can be made mutable based on principles described herein. The term “mutable” refers to the ability of a thing (in this case, the boundary of a geo-fence) to change and adjust. In a typical embodiment, a mutable geo-fence system is configured to generate and monitor a geo-fence that encompasses a region, in order to dynamically vary the boundary of the geo-fence based on a number of boundary variables. The term “geo-fence” as used herein describes a virtual perimeter (e.g., a boundary) for a real-world geographic area. A geo-fence could be a radius around a point (e.g., a store), or a set of predefined boundaries. Boundary variables, as used herein, refers to a set of variables utilized by the mutable geo-fence system in determining a location of the boundary of the geo-fence.

In a telecommunication network, a method is carried out for assisting a first user terminal (100.sub.1) in benefiting from a data connectivity. A second user terminal (100.sub.2) indicates (s10), to a connectivity donation server (200), that it is willing to sponsor data connectivity of the first terminal (100.sub.1) and that, restriction(s) are imposed on how the sponsored connectivity can be used. The restriction(s) comprise: i) where the first terminal (100.sub.1) is to be located for benefiting from the sponsored connectivity; and ii) which access network(s) the first terminal (100.sub.1) has to connect to for benefiting from the sponsored connectivity. The connectivity donation server (200) then transmits a token to the second terminal (100.sub.2), which in turn transmits (s30) it to the first terminal (100.sub.1) using proximity-based means. Terminals, network nodes, and computer programs for use in the above method are also disclosed.

A system and method for selecting an optimal service may include: (1) querying a device to determine the location at which the service is provided and the parameters of the service being used, (2) based on the information obtained from the query, comparing the parameters of competing services offered in the location, and (3) based on the comparison, selecting one of the competing services.

An apparatus and method comprising a remote speaker microphone that attaches to a portable land mobile radio utilized by first responders, police, fire, military and other law enforcement that incorporates an embedded electronic location tracking system and display for monitoring the location of other users that possess a similar system.

This application relates to a data transmission method. The method includes a terminal device receives indication information from a policy control function (PCF) network element. The indication information indicates data network access identifier information corresponding to an application. The method also includes the terminal device determines, based on the indication information, a PDU session for transmitting data of the application.