Disclosed are systems and methods for steering network traffic over different access networks based on a classification of the network traffic. A first access network provides a first network path between a client device and a destination network and a second access network provides a second network path between the client device and the destination network. The access networks have different characteristics, such as latency or available bandwidth. A traffic classifier receives network messages and assigns classifications to the received network messages. A policy enforcer determines routes for individual network messages. The determined route is based at least in part on the classification assigned by the traffic classifier.

The systems, devices, and methods discussed herein are directed to continuously providing Internet connection for user equipment (UE) connected to a router by monitoring availability of a primary data, or Internet, connection provided by a primary Internet service provider (ISP) for the router, upon determining that the primary data connection has become unavailable, switching to a secondary data, or Internet, connection established using a mobile network of a secondary ISP, and upon determining that the primary data connection has become available, switching back to the primary data connection.

A computer includes a processor and a memory, the memory storing instructions executable by the processor to receive, from each of a plurality of vehicles, a request to exchange data, each request including metadata about the request; sort the vehicles into a plurality of priority sets determined from the metadata; determine a first set of data transfer lines available for vehicles in a first one of the priority sets; select a first optimal data transfer line from the first set of data transfer lines for a first one of the vehicles in the first priority set; and assign the first optimal data transfer line to the first one of the vehicles.

Devices, systems, methods and computer-readable media are provided for data communication to and from a vehicle. A device is provided that includes memory storing processor-executable instructions; and at least one processor in communication with the memory that executes the stored instructions to: receive, from at least one user on the vehicle, at least one request for data communication; identify a plurality of communication links available at a current location of the moving vehicle; form an adaptive bonded communication link using the plurality of communication links to aggregate throughput across the plurality of communication links for the requested data communication, wherein the adaptive bonded communication link is configured to adapt to data communication requirements for the requested data communication and to data communication characteristics of the plurality of communication links as the vehicle moves. Corresponding methods, computer system products, uses, and computer-readable media are also provided.

A wireless high-resolution headphones device includes a first earpiece containing a first speaker and a second earpiece containing a second speaker. The device also includes a first wireless transceiver unit operates at a first bandwidth to communicate with an external user device to receive control and/or configuration signals from the external user device. A second wireless transceiver unit operates at a second bandwidth greater than the first bandwidth to communicate with a media source remote from the headphones device to receive high-resolution audio content from the media source. A processor receives and processes the high-resolution audio content to generate audio output signals. The processor also receives and processes the control and/or configuration signals to control operation of and configure the headphones device. Audio amplifiers amplify the audio output signals to drive the first and second speakers to render an audio output. A rechargeable battery powers the device.

Broadband communications devices and methods operate with at least two separate communication paths between the devices and the network, such as the Internet. The broadband devices and methods receive data concurrently over the communication paths or separately. The bandwidth is increased when the separate communication paths are combined. The broadband devices employ packetized data with Voice over Internet Protocol (VoIP) technologies combined with RF communications technologies.

A method of determining a problem with data packet transmission speed over a first communication medium coupled between a plurality of content servers and an ISP communication device. The method comprises repeatedly measuring the data packet transmission speed over the first communication medium coupled between each of the plurality of content servers and the ISP communication device, and determining there is a problem with the data packet transmission speed over the first communication medium coupled between one of the plurality of content servers and the ISP communication device when the repeatedly measured data packet transmission speeds over the first communication medium coupled between the one of the plurality of content servers and the ISP communication device is substantially different from the repeatedly measured data packet transmission speeds over the first communication medium coupled between other of the plurality of content servers and the ISP communication device.

A multi-wide area network (WAN) incorporating both satellite-based communication networks and cellular networks (e.g., an LTE network) is disclosed. In one embodiment, the WAN is implemented with a communications framework comprising: an edge appliance comprising a satellite modem interconnect for coupling to a satellite modem external to the edge appliance, a cellular modem interconnect for coupling to a cellular modem external to the edge appliance, a switch coupled to the satellite and cellular modem interconnects, and a processing node coupled to the switch and comprising a router to switch traffic between the satellite modem interconnect and the cellular modem interconnect when the edge appliance communicates with a public data network using a satellite link or a terrestrial cellular link, respectively; and a connectivity platform configured for connection to the edge appliance, the connectivity platform comprising a broker/integrator component configured to operate as a broker and an integrator between the edge appliance and both connectivity service providers and business support systems that perform subscription management to enable the edge appliance access to the satellite and terrestrial cellular links.

Broadband communications devices and methods operate with at least two separate communication paths between the devices and the network, such as the Internet. The broadband devices and methods receive data concurrently over the communication paths or separately. The bandwidth is increased when the separate communication paths are combined. The broadband devices employ packetized data with Voice over Internet Protocol (VoIP) technologies combined with RF communications technologies.

When an access point device is aware of an internet access failure, the access point device can attempt to re-route the baseband content through a different access point for the purpose of using its hard-wired internet connection. An administrative function can allow the access point device to tunnel through the internet service provider (ISP) of another access point device if permission is granted to do so. The permission can be granted beforehand or it can be granted to on the fly. Consequently, if the packets cannot route via the normal, hard-wired path, a message to a secondary transceiver of the access point device can instruct the access point device to find an alternate path via the ISP of the other access point device.