A streaming orchestrator may monitor the quality of video being delivered to a home or other building. If the streaming orchestrator determines that additional performance is needed, it may create an additional User Plane Gateway in the virtual “white box” environment residing in the customer premises. The streaming orchestrator may instruct gNodeBs to continue to route traffic back to the central core functions or to route traffic to local user plane gateways which transmit video streams to the Internet via localized high-speed connections.

An exemplary method includes maintaining a receiver-side mesh-vertices list, receiving duplicative-vertex information from a sender, and responsively reducing the receiver-side mesh-vertices list in accordance with the received duplicative-vertex information, and rendering, using the reduced receiver-side mesh-vertices list, viewpoint-adaptive three-dimensional (3D) personas of a subject at least in part by weighting video pixel colors from different video-camera vantage points of video cameras that capture video streams of the subject, the weighting being performed according to a respective geometric relationship of each video-camera vantage point to a user-selected viewpoint.

Described are system, apparatus, article of manufacture, method, or computer program product embodiments for controlling streaming of media content. An embodiment operates by halting a presentation of future content from a buffer upon determining that the buffer is exhausted of content to present. The embodiment includes receiving one or more packets over a network connection, the one or more packets including media information corresponding to a first portion of streaming media content, in which the first portion corresponds to a second portion of the streaming media content. The one or more packets in a buffer are stored as buffered content. Responsive to determining that the network connection is not experiencing a burst condition, the buffer is trimmed. Then, presentation of buffered content is resumed and the first portion is caused to be presented in sync with the second portion.

Video editing software tools platform utilizing a video display to provide access to specific video editing software tools, such as video oriented applications or widgets, that can assist those in a video broadcasting team, such as a camera operator or video editor, with a video broadcast feed. Various video editing software tools can provide features and functions that can add visual context to video data presented in the image stream from the video camera and provide archived information pertaining to the same. Various embodiments relate to systems and methods for simultaneously switching input image streams to output devices, while providing optional image processing functions on the image streams. Certain embodiments may enable multiple users/viewers to collaboratively control such systems and methods.

Video editing software tools platform utilizing a video display to provide access to specific video editing software tools, such as video oriented applications or widgets, that can assist those in a video broadcasting team, such as a camera operator or video editor, with a video broadcast feed. Various video editing software tools can provide features and functions that can add visual context to video data presented in the image stream from the video camera and provide archived information pertaining to the same. Various embodiments relate to systems and methods for simultaneously switching input image streams to output devices, while providing optional image processing functions on the image streams. Certain embodiments may enable multiple users/viewers to collaboratively control such systems and methods.

Methods, systems and devices for network congestion control exploit the inherent burstiness of network traffic, using a wave-based characterization of network traffic and corresponding multiplexing methods and approaches.

The present invention, belonging to the technical field of data transmission, relates to an integrated intelligent interaction machine. The integrated intelligent interaction machine comprises a signal transmission device, a processing device, a upper computer and a network transmission device, wherein the signal transmission device is connected to the processing device, the processing device is connected to the upper computer, and the upper computer is connected to the processing device through the network transmission device. The signal transmission device is used to receive a screen transmission signal and transmit it to the processing device, and the processing device is used to process the screen transmission signal to obtain screen transmission data and transmit the screen transmission data to the upper computer. The upper computer is used to connect to an external network and output a network signal to the network transmission device, and the network transmission device transmits the network signal to the processing device. The upper computer is used to connect the external network and the internal device of the equipment to provide the network signal for the processing device, thereby realizing the communication between the processing device and the external network. The screen transmission data and the network signal are transmitted through different paths, so as to carry out screen transmission communication in the equipment and network sharing, respectively, thereby improving the data transmission convenience of the integrated intelligent interaction machine.

A portable device and accompanying software provides users with a digital audio workstation with integrated tools take in raw audio data from physical inputs and map the raw data to various virtual outputs. Raw audio data for recording (recording data) is cast in real-time to a remote server. Monitoring data is simultaneously sent to collaborating devices via P2P protocols. The bitrate of the data for P2P transmissions can be adjusted to allow remote multiple users recording simultaneously to hear monitoring data in synchronicity, regardless of the speed of their respective internet connections. Face-to-face collaboration may be facilitated through the streaming of video data as the monitoring data. The low-latency of the P2P monitoring transmissions frees up bandwidth for the real-time streaming of the recording data. Audio recordings are uploaded to a central server, where they may be available to authorized collaborators for editing.

A portable device and accompanying software provides users with a digital audio workstation with integrated tools take in raw audio data from physical inputs and map the raw data to various virtual outputs. Raw audio data for recording (recording data) is cast in real-time to a remote server. Monitoring data is simultaneously sent to collaborating devices via P2P protocols. The bitrate of the data for P2P transmissions can be adjusted to allow remote multiple users recording simultaneously to hear monitoring data in synchronicity, regardless of the speed of their respective internet connections. Face-to-face collaboration may be facilitated through the streaming of video data as the monitoring data. The low-latency of the P2P monitoring transmissions frees up bandwidth for the real-time streaming of the recording data. Audio recordings are uploaded to a central server, where they may be available to authorized collaborators for editing.

A digital data communications network that supports efficient, scalable routing of data and use of network resources by combining a recursive division of the network into hierarchical sub-networks with repeating parameterized general purpose link communication protocols and an addressing methodology that reflects the physical structure of the underlying network hardware. The sub-division of the network enhances security by reducing the amount of the network visible to an attack and by insulating the network hardware itself from attack. The fixed bandwidth range at each sub-network level allows quality of service to be assured and controlled. The routing of data is aided by a topological addressing scheme that allows data packets to be forwarded towards their destination based on only local knowledge of the network structure, with automatic support for mobility and multicasting. The repeating structures in the network greatly simplify network management and reduce the effort to engineer new network capabilities.