The present system relates to a server for providing data connectivity in a packet mode communication network. The server has a processor arranged to receive, via a first brokerage control unit, a charging rule request to allow one or more communication devices in the communication network to exchange with an application server data charged under operator specific billing. The server determines availability of the operator specific billing based on network parameters and the charging rule request, and updates the database of a Policy and Charging Rules Function (PCRF) entity in the communication network based on available operator specific billing and an identifier for the application server, for subsequent charging of data exchanged with the application server at said available operator specific billing.

The present invention relates to a method for setting up a connection between a seller device (10) and a buyer device (30) for enabling the buyer device (30) to send and receive data via the seller (10). The method comprises sending, from the seller device (10) to a server (20), data pertaining to an offer (12), the data pertaining to the offer including an identification of the seller device (10); storing the data pertaining to the offer (12) in a memory of the server (20), the memory being configured to store data pertaining to at least one offer from a at least one seller device; sending, from the buyer device (30) to the server (20), a request (32) for a list of nearby seller devices; at the server (20), compiling, from the data pertaining to the at least one offer stored in the memory, the list of nearby seller devices, by identifying one or more seller devices being positioned in proximity of a position of the buyer device (30), the list of nearby seller devices comprising the data pertaining to the offers of the identified one or more seller devices; sending, from the server (20) to the buyer device (30), the list of nearby seller devices; and sending, from the buyer device (30) to at least one of the seller devices (10) of the list of nearby seller devices, a connection request (36) for connecting the buyer device (30) to the at least one of the seller devices (10), thereby enabling the buyer device (30) to send and receive data via the seller device (10).

Devices, systems, and methods for temporary link performance elevation are disclosed herein. In one embodiment, a link performance elevation (LPE) request is received. The LPE request is a request to temporarily boost performance of a network link between an endpoint and a service provider for a finite duration. Based on the LPE request, a temporary performance boost is activated for the network link at the start of the finite duration, and the temporary performance boost is deactivated for the network link at the end of the finite duration.

A process for selecting an optimal individual user solution including an optimal rate allocation and associated price for a predetermined bandwidth of cellular network resources includes application of an iterative process and selection from multiple proposed user solutions. The inputs to the iterative process include at least an initial user bid, an initial network rate allocation, a generated user utility function and the cost data. The user utility function includes multiple application user functions. Optimal solution selection includes comparing each multiple proposed user rate allocation with the initial network rate allocation for the user and selecting the closest multiple proposed user rate allocation to the initial network rate allocation. The process may be applied to aggregated cellular carrier scenarios.

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 system, method, and computer program product are provided for transmitting network communications at a point in time automatically determined based on communication rates. In use, a communication to be transmitted over a network is identified, utilizing a device. Additionally, a point in time at which to transmit the communication over the network is automatically determined by the device, utilizing at least one rate for the communication. Further, transmission of the communication over the network is initiated at the determined point in time, utilizing the device.

Aspects of the present disclosure provide for yield management models for dynamically pricing access to wireless communication services. In some examples, access to a network is intermediated by a surrogate access point, which may act as a proxy or relay, expanding communication services to client devices that otherwise may lack a subscription, or may lack a suitable communication interface, to communicate directly with the wireless network. Here, the surrogate access point may be a subscriber device or user equipment. By utilizing the yield management model, the surrogate access point may receive compensation for sharing its connection to the network with nearby client devices. Other aspects, embodiments, and features are also claimed and described.

In one example, a user interface may be configured to receive input from a hosting device, a transmitter may be configured to solicit competing bids to subscribing devices for a requested service based on the input from the hosting device, a queue may be configured to store bids from third-parties in response to the transmitted request for bids for the requested service, and a receiver may be configured to receive a manifestation of the requested service from one of the third-parties whose received bid was accepted.

Methods, processes, and devices for dynamic service matching include collecting provider data from a plurality of providers, receiving a service request by a user, processing the service request based on the collected provider data, sending, via a network, the processed service request to at least one of the plurality of providers, receiving at least one service bid from the at least one of the plurality of providers wherein the at the least one service bid includes service data, filtering the at least one service bid based on the service data, sending, via a network, the at least one filtered service bid to the user, receiving a selection input from the user, and establishing a direct communication channel between the user and the provider based on the received selection input.

Technologies for determining a set of edge resources to offload a workload from a client compute device based on a brokering logic provided by a service provider include a device that includes circuitry that is in communication with edge resources. The circuitry is to receive a brokering logic from a service provider receive a request from a client compute device, wherein the request includes a function to be used to execute the request and one or more parameters associated with the client compute device, determine the one or more parameters, select, as a function of the one or more parameters and the brokering logic, a physical implementation to perform the function, wherein the physical implementation indicates a set of edge resources and a performance level for each edge resource of the set of edge resources, and perform, in response to a selection of the physical implementation, the request using the set of edge resources associated with the physical implementation.