In general techniques are described by which to provide switchable communication transport for communication between primary devices and vehicle head units. A primary device comprising a memory and a processor may be configured to perform the techniques. The memory may store an operating system and an application. The processor may execute the operating system to present a single communication interface by which the application establishes a first transport between the primary device and a vehicle head unit that facilitates execution of a mode in which the application provides data for presentation by the vehicle head unit. The processor may also execute the application to transmit, during execution of the mode, the data via the first transport, where the operating system switches, during execution of the mode, from the first transport to a second transport. The application transmits, during execution of the mode, the data via the second transport.

A method of transmission scheduling for one or more process devices in an industrial application, such as a sensor, an actuator and/or a process controller, capable of wireless communication, implemented by a radio control unit, is proposed, the method comprising: determining with respect to the industrial application whether a licensed shared access spectrum is available and assigning to the one or more process devices, based on a traffic type of the data to be transmitted by the one or more process devices, an access spectrum within the licensed shared access spectrum.

One example may include a process that includes establishing a transmission control protocol (TCP) connection between a client device and a server to form a virtual private network (VPN), permitting communication between the client device and the server on the TCP connection, monitoring, via the VPN server, communication over the TCP connection to identify one or more connection parameters, establishing a second connection between the client device and the server when the one or more connection parameters indicate a slowing of the TCP connection below a threshold and below a previously measured connection rate, receiving, via the TCP connection, application data used by one of the applications operating on the client device, and receiving, via the second connection, application data used by another application of the applications.

A system for data communication between electronic devices comprises a first electronic device that is a resource-constrained device; and a second electronic device that exchanges data with the first electronic device. One of the first electronic device and the second electronic device generates a message in a data unit frame complying with a protocol stack that includes a Constrained Application Protocol (CoAP) message on a data link layer in the absence of a User Datagram Protocol (UDP) layer.

A system for data communication between electronic devices comprises a first electronic device that is a resource-constrained device; and a second electronic device that exchanges data with the first electronic device. One of the first electronic device and the second electronic device generates a message in a data unit frame complying with a protocol stack that includes a Constrained Application Protocol (CoAP) message on a data link layer in the absence of a User Datagram Protocol (UDP) layer.

A multipath bundling system includes: a mobile terminal, comprising a Wireless Technologies Database (WTD) and a processor configured to run a multipath bundling protocol (MBP); and a network entity, wherein the network entity is an external server or a multipath bundling server, and wherein the network entity comprises a Self-Learning Wi-Fi Database (SLWD). The mobile terminal and/or the network entity is configured to run a Search-Compare-Assign Algorithm (SCAA). Running the SCAA includes: receiving input data from the WTD and/or the SLWD, the input data indicating information about wireless technologies, including information about at least one cellular connection and at least one Wi-Fi connection, usable by the mobile terminal for multipath bundling; and determining at least one Wi-Fi connection usable by the mobile terminal for multipath bundling based on the received input data in accordance with an optimization criterion.

A multipath bundling system includes: a mobile terminal, comprising a Wireless Technologies Database (WTD) and a processor configured to run a multipath bundling protocol (MBP); and a network entity, wherein the network entity is an external server or a multipath bundling server, and wherein the network entity comprises a Self-Learning Wi-Fi Database (SLWD). The mobile terminal and/or the network entity is configured to run a Search-Compare-Assign Algorithm (SCAA). Running the SCAA includes: receiving input data from the WTD and/or the SLWD, the input data indicating information about wireless technologies, including information about at least one cellular connection and at least one Wi-Fi connection, usable by the mobile terminal for multipath bundling; and determining at least one Wi-Fi connection usable by the mobile terminal for multipath bundling based on the received input data in accordance with an optimization criterion.

A Bluetooth audio streaming passthrough, and a method for transmitting an audio stream over a Bluetooth communication link and disclosed. The method is carried out by a source device. An audio codec configuration and a sampling rate of the audio stream are received, the audio stream coming from a streaming application running on the source device. A Bluetooth audio stream between the source device and a sink device is configured using the received audio codec configuration and sampling rate. The first audio stream is received from the streaming application. The received first audio stream is packetized into the Bluetooth audio stream. The Bluetooth audio stream is transmitted to the sink device over the Bluetooth communication link, including the packetized received audio stream.

A method for transmitting a broadcast signal, includes compressing headers of Internet Protocol (IP) packets in an IP packet stream to output a compressed IP packet stream, the compressed IP packet stream including Initialization Refresh (IR) packets, a first group of IR-dynamic packets, and compressed IP packets; extracting context information from the compressed IP packet stream, wherein when the context information is extracted only from the IR packets in the compressed IP packet stream, the IR packets are converted to a second group of IR-dynamic packets; building signaling information including the context information; and encapsulating the signaling information into one or more signaling link layer packets and the compressed IP packet stream into link layer packets that are distinct from the one or more signaling link layer packets.

A method for transmitting a broadcast signal, includes compressing headers of Internet Protocol (IP) packets in an IP packet stream to output a compressed IP packet stream, the compressed IP packet stream including Initialization Refresh (IR) packets, a first group of IR-dynamic packets, and compressed IP packets; extracting context information from the compressed IP packet stream, wherein when the context information is extracted only from the IR packets in the compressed IP packet stream, the IR packets are converted to a second group of IR-dynamic packets; building signaling information including the context information; and encapsulating the signaling information into one or more signaling link layer packets and the compressed IP packet stream into link layer packets that are distinct from the one or more signaling link layer packets.