A network device provides, to a user device, a user interface to configure preferences for a bandwidth boosting service. The bandwidth boosting service is configured to supplement a subscriber's primary content delivery connection with additional bandwidth from a broadband cellular connection. The network device receives, via the user interface, user configuration preferences for the bandwidth boosting service and provides, to a boosting router at a local subscriber network, configuration settings that are based on the configuration preferences. The network device receives, from the boosting router, a boost request for content delivery to a user device at the local subscriber network and generates, in response to the boost request, a split-path instruction for the content delivery to the local subscriber network via a primary data path and a supplemental data path.

A bridge system establishes a network connection between each of a plurality of private computer networks and a public computer network. The bridge system includes a plurality of bridge devices, each bridge device being connected to the public computer network. Additionally, the bridge system includes a central controller in connection with each bridge device. The central controller configures each bridge device for wireless communication with a designated private network, with aspects of the bridge device configuration being reviewable and modifiable through a network interface in communication with the central controller. Accordingly, the bridge system creates a private-to-public network link between each private network and the public network. As a result, an internet-enabled device with access to the network link is afforded with all the network services and resources provided by the private network over the substantially broadened geographic area of coverage delivered by the public network.

The present invention is basically related to a system which is For managing IPv4 based network through IPv6 based TR-069 communication and which provides a solution allowing new subscriber registrations to the networks that has reached maximum number of IP (Internet Protocol) usage.

A special network device and method for using the same are described. In one embodiment, the device is for use in a network arrangement comprising a plurality of access points that are part of one or more existing networks and operable to individually address and communicate with each other to form a local area network (LAN) to transfer data between two or more of the plurality of access points using point-to-point links independent of their function in the one or more first existing networks, and the client device comprises: a first communication interface; a second wireless communication interface; a cache to store content; and connection logic coupled to the first and second communication interfaces, and the cache, to initiate a wireless connection with one or more access points in the plurality of access points by itself using the second wireless communication interface to transfer desired content cached by individual access points of the plurality of access points, the wireless connection used to request at least one of the one or more of the plurality of access points to transfer the desired content via one or more direct point-to-point transfers with one or more access points in the plurality of access points.

Systems for routing data over first and second broadband channels. Communication data are received from one or more user equipment (UE). A first bandwidth capacity of the first broadband channel and a second bandwidth capacity of the second broadband channel are determined. A ratio of communication data throughput between the first broadband channel and the second broadband channel are adjusted based on a bandwidth allocation rule set that routes the communication data according to the first bandwidth capacity of the first broadband channel and the second bandwidth capacity of the second broadband channel.