A communication apparatus includes an acquisition unit, a determination unit, and a control unit. The acquisition unit acquires capability information on other communication apparatuses in a network. The determination unit determines, based on the capability information acquired by the acquisition unit, whether there is a communication apparatus having a specific function, related to data communication, to be performed after processing to set communication parameters is performed. The control unit perform controls, in response to the determination unit determining that there is a communication apparatus having the specific function, to continue the processing to set the communication parameters, and performs control, in response to the determination unit determining that there is no communication apparatus having the specific function, to terminate the processing to set the communication parameters.

Media content items is provided to content consumers for playback by the disclosed system that includes plurality of nodes interacting with each other based on a defined protocol in communication network. A first node associated with a first participant receives a request for playback of a media content from a content consumer. A second node associated with a second participant provides media content rights to the first participant and/or the content consumer. The first node further provides media content metadata to the consumer device for consumption. A plurality of instances of a distributed media rights transaction ledger, associated with respective node, includes a plurality of media content rights transactions which corresponds to an acquisition of the media content rights by the first participant and/or content consumer prior to the consumption of the media content, and are managed by the plurality of nodes in accordance with the defined protocol.

The disclosed embodiments provide a system that facilitates communication with a first electronic device from a second electronic device. During operation, the system establishes a peer-to-peer connection between the first electronic device and the second electronic device on a first physical network interface. Next, the system uses the peer-to-peer connection to obtain, on the second electronic device, a first set of network-interface capabilities for the first electronic device. Finally, the system switches the peer-to-peer connection to a second physical network interface based on at least one of the first set of network-interface capabilities and one or more characteristics associated with the peer-to-peer connection.

A codec negotiation method may include issuance by a first terminal, belonging to a first IP domain/network, of an offer message specifying, a list of codecs referred which said first terminal is capable of using for communicating with a second terminal, belonging to a second IP domain/network. The offer may be intercepted by a transit device situated on the signaling path between the first and second domains/networks. The transit device may determine a revised offer, and send the revised offer to the second terminal. The second terminal may determine a response including a list of more than one codecs that are contained in the revised offer and that the second terminal is capable of using, and sends the response to the transit device. The transit device may determine a provisional revised response, so as to comply with a certain priority criterion selected by the operators of the domains/networks in question.

An antenna automatic alignment method for a mobile object includes acquiring, in real time, current feature information of a plurality of antennas of the mobile object, and selecting one of the antennas to establish a communication link with a wireless terminal in accordance with the current feature information of the plurality of antennas.

Disclosed are a user terminal device and a control method therefor. The control method for a user terminal device comprises the steps of: determining state information of a satellite device connected with a user terminal device when a call request message is received from another terminal device; determining communication configuration information with the another terminal device on the basis of the state information of the satellite device, and transmitting a call response message including the communication configuration information to the another terminal device; and receiving audio data from the another terminal device according to a communication scheme corresponding to the communication configuration information. Therefore, in comparison with the prior art, the present invention can reduce a call negotiation time between user terminal devices, and thus reduce a call cost.

Disclosed are a user terminal device and a control method therefor. The control method for a user terminal device comprises the steps of: determining state information of a satellite device connected with a user terminal device when a call request message is received from another terminal device; determining communication configuration information with the another terminal device on the basis of the state information of the satellite device, and transmitting a call response message including the communication configuration information to the another terminal device; and receiving audio data from the another terminal device according to a communication scheme corresponding to the communication configuration information. Therefore, in comparison with the prior art, the present invention can reduce a call negotiation time between user terminal devices, and thus reduce a call cost.

Virtual Reality (VR) systems, apparatuses and methods of processing data are provided which include predicting, at a server, a user viewpoint of a next frame of video data based on received user feedback information sensed at a client, rendering a portion of the next frame using the prediction, encoding the portion, formatting the encoded portion into packets and transmitting the video data. At a client, the encoded and packetized A/V data is received and depacketized. The portion of video data and corresponding audio data is decoded and controlled to be displayed and aurally provided in synchronization. Latency may be minimized by utilizing handshaking between hardware components and/or software components such as a 3D server engine, one or more client processors, one or more client processors, a video encoder, a server NIC, a video decoder, a client NIC; and a 3D client engine.

Provided are methods, apparatuses and systems for providing prioritized data distribution at a customer premise. A network access component may receive priority information from a trusted source, the priority information being indicative of an association between at least one identifier and a respective priority level. The network component may determine a particular identifier associated with data received from a communication entity. The network access component may determine a particular priority level associated with the data based on the particular identifier and the priority information. The network component may also prioritize at least a portion of the data on a basis of the particular priority level.

A Bluetooth transmission control system, a control system and a storage medium are provided. The Bluetooth transmission control method comprises: establishing a Bluetooth connection with a file receiving device by a mobile terminal, and the mobile terminal initiating a Bluetooth file transmission operation to the file receiving device; detecting whether the mobile terminal synchronously turns on a Bluetooth music playback operation or not; negotiating a file transmission timeout period with the file receiving device by the mobile terminal based on a detection result; and transmitting a file to the file receiving device by the mobile terminal.