In some examples, a computing device for processing data streams includes storage to store instructions and a processor to execute the instructions. The processor is to execute the instructions to receive respective data streams provided from a plurality of data producer sensors. The processor is also to execute the instructions to stagger a time of triggering of a first of the plurality of data producer sensors relative to a time of triggering of a second of the plurality of data producer sensors to minimize a concurrency of data frames of the data stream received from the first data producer sensor and data frames of the data stream received from the second of the plurality of data producer sensors. The processor is also to execute the instructions to process the data streams from the plurality of data producer sensors in a time-shared manner. The processor is also to execute the instructions to provide the processed data streams to one or more consumer of the processed data streams.

Systems, methods, and machine-readable media for adapting content items to device operations of an endpoint media device are disclosed. A first content composite may be created by one or more processing devices for delivery in a packet stream from a content provider system via one or more networks, where the first content composite may include an adaptable content item corresponding to a set of one or more audio and/or video packets corresponding to audio and/or video content. The first content composite may be transmitted, where, consequent to delivery of the first content composite to a first endpoint media device or a second endpoint media device, the first endpoint media device or the second endpoint media device may perform one operation relating to a second content item of the first content composite, where the adaptable content item may be modified based on the second content item.

Aspects of the subject disclosure may include, for example, obtaining live video content from equipment of a media content provider, determining priority content within the live video content; segmenting the live video content into a plurality of tiles according to the priority content, and transcoding the live video content according to a type of client device. Further embodiments include determining an encoding schedule for the plurality of tiles according to the priority content, encoding the plurality of tiles according to the encoding schedule, and providing the plurality of tiles to the client device. Other embodiments are disclosed.

Techniques for multi-view video streaming are described in the present disclosure, wherein a viewport prediction may be employed at a client-end based on analysis of pre-fetched media item data and ancillary information. A streaming method may first prefetch a portion of content of a multi-view media item. The method may next identify a salient region from the prefetched content and may then download additional content of the media item that corresponds to the identified salient region.

Techniques for dynamically changing characteristics of simulcast video streams in real-time multi-party video conferences. Once a video conference has been established for a plurality of participant devices, each participant device can provide a notification of its supported video communications characteristic(s) for sending simulcast video streams and receiving video streams. Having been provided such notification, the media server can determine video communications setting(s) and/or parameter(s) to be used by each participant device while sending simulcast video streams or receiving video streams based on the supported video communications characteristic(s) of the respective participant devices. In response to changes in conference, system, or network factors, the media server can request one or more of the participant devices to dynamically change the video communications setting(s) and/or parameter(s) used to send simulcast video streams or receive video streams to maintain acceptable levels of QoE at the respective participant devices.

A web-based, online session system is provided in which a host server manages a multi-participant session. A plurality of participating devices may join the online session using a web-based interface and receive session content (e.g., video, audio, text, graphics, etc.) via the web-based interface. A user of a participating device may dynamically expand its resources/capabilities during an ongoing online session by adding accessory/supporting devices under its own participant account to the session. The added devices may communicate directly with the host server via a separate stream than the participating device. Additionally, the participating device may also transfer its complete participation in the online session to another device via the web-based interface.

Techniques for conducting a communication session include obtaining capabilities of a set of one or more first devices and a second device configured to provide content to the first devices, the second device being configured to generate a plurality of data streams associated with the communication session; sending a first signal over a network to the second device to configure one or more operating parameters of the second device to generate the one or more data streams according to the capabilities of the first devices; and dynamically updating the operating parameters of the second device to alter the one or more data streams generated by the second device responsive to receiving an indication of changes in the capabilities of one or more of the first devices, a set of one or more third devices joining the communication session having different capabilities than the first set of devices, or both.

A block-request streaming system provides for improvements in the user experience and bandwidth efficiency of such systems, typically using an ingestion system that generates data in a form to be served by a conventional file server (HTTP, FTP, or the like), wherein the ingestion system intakes content and prepares it as files or data elements to be served by the file server. A client device can be adapted to take advantage of the ingestion process. The client device might be configured to optimize use of resources, given the information available to it from the ingestion system. This may include configurations to determine the sequence, timing and construction of block requests based on monitoring buffer size and rate of change of buffer size, use of variable sized requests, mapping of block requests to underlying transport connections, flexible pipelining of requests, and/or use of whole file requests based on statistical considerations.

A method for composing an intermediate representation of a video sequence from at least two representations of the video sequence of different quality, spatially partitioned into a plurality of tiles, each tile being associated with compressed data in the representation. The tiles can be decoded independently of each other and, at a given time, the different representations are identically partitioned. When the sequence is being played on a playback device, the method includes: obtaining a context data item representing the activity of viewers located near the playback device; selecting, on the basis of the context data item obtained and at least one maximum rate criterion for the intermediate representation resulting from the composition, a set of tiles forming a partition of the sequence from the at least two representations; and composing an intermediate representation of the video sequence from the compressed data associated with the selected set of tiles.

A system, method and computer program product for real-time post-processing system that transforms MPEG-DASH on-demand media streams, including a DASH media player device; an intercepting media server device; a MPEG-DASH content origin server device; and a proxy media client device coupled to the DASH media player device and the intercepting media server device and configured to intercept MPEG-DASH HTTP requests from the DASH media player device and forward the intercepted requests to the intercepting media server device instead of the MPEG-DASH content origin server device. The intercepting media server device is configured to act as an HTTP proxy device, and forward the intercepted requests to the MPEG-DASH content origin server, and with each corresponding MPEG-DASH media subsegment acquired perform analysis of the video media content within the subsegment and apply selective transcoding.