The disclosure is related to adaptive transcoding of video streams from a camera. A camera system includes a camera and a base station connected to each other in a first communication network, which can be a wireless network. When a user requests to view a video from the camera, the base station obtains a video stream from the camera, transcodes the video stream, based on one or more input parameters, to generate a transcoded video stream, and transmits the transcoded video stream to a user device. The base station can transcode the video stream locally, e.g., within the base station, or in a cloud network based on transcoding location factors. Further, the camera system can also determine whether to stream the video to the user directly from the base station or from the cloud network based on streaming location factors.

A place shifting device and a method for operating the same are provided. The place shifting device, for example, may include, but is not limited to, a communication system configured to receive a plurality of sources of media, a multiplexed channel transcoder configured to multiplex video from at least two of the plurality of sources of media into a single channel, and a processor communicatively coupled to the communication system and the multiplexed channel transcoder, the processor configured to determine the at least two of the plurality of sources of media, transcode, via the multiplexed channel transcoder, the determined video from the at least two of the plurality of sources of media into the signal channel, and transmit, via the communication system, the single channel to a remote electronic device.

A place shifting device and a method for operating the same are provided. The place shifting device, for example, may include, but is not limited to, a communication system configured to receive a plurality of sources of media, a multiplexed channel transcoder configured to multiplex video from at least two of the plurality of sources of media into a single channel, and a processor communicatively coupled to the communication system and the multiplexed channel transcoder, the processor configured to determine the at least two of the plurality of sources of media, transcode, via the multiplexed channel transcoder, the determined video from the at least two of the plurality of sources of media into the signal channel, and transmit, via the communication system, the single channel to a remote electronic device.

Examples of systems and methods described herein may provide saliency-based video compression. A saliency map associated with a video may be generated and/or provided. A tile configuration may be selected for the video and quality settings assigned to each tile in accordance with the saliency map. The video may then be compressed (e.g., encoded) in tiles in accordance with the quality settings. Compressed videos may be stored together with saliency metadata, facilitating storage management and/or re-compression.

Examples of systems and methods described herein may provide saliency-based video compression. A saliency map associated with a video may be generated and/or provided. A tile configuration may be selected for the video and quality settings assigned to each tile in accordance with the saliency map. The video may then be compressed (e.g., encoded) in tiles in accordance with the quality settings. Compressed videos may be stored together with saliency metadata, facilitating storage management and/or re-compression.

Disclosed are methods and systems that can transmit medical imaging data. These methods and systems can include generating a first video stream based on imaging data generated by an imaging device, wherein the first video stream comprises a first bitrate; generating a second video stream based on the imaging data, wherein the second video stream comprises a second bitrate lower than the first bitrate; transmitting the first video stream for consumption by a first device; and concurrently transmitting the second video stream for consumption by a second device.

Disclosed are methods and systems that can transmit medical imaging data. These methods and systems can include generating a first video stream based on imaging data generated by an imaging device, wherein the first video stream comprises a first bitrate; generating a second video stream based on the imaging data, wherein the second video stream comprises a second bitrate lower than the first bitrate; transmitting the first video stream for consumption by a first device; and concurrently transmitting the second video stream for consumption by a second device.

Dynamic transcoding can be used to provide supplemental content, selected to be played during breaks in a stream of primary content, that has the same format as the primary content. It can be desirable to provide supplemental content that is personalized. This may include additional content or advertising that may be of interest or relevance to a viewer. In many instances, the supplemental content will come from a different source and thus can be in a different format. Approaches in accordance with various embodiments can take advantage of dynamic transcoding of the supplemental content to provide properly formatted supplemental content through the same stream as the primary content. A custom manifest can be provided to the media player that points to the transcoded supplemental content. At an appropriate break in the playback, the media player can use the manifest to obtain the formatted supplemental content.

Dynamic transcoding can be used to provide supplemental content, selected to be played during breaks in a stream of primary content, that has the same format as the primary content. It can be desirable to provide supplemental content that is personalized. This may include additional content or advertising that may be of interest or relevance to a viewer. In many instances, the supplemental content will come from a different source and thus can be in a different format. Approaches in accordance with various embodiments can take advantage of dynamic transcoding of the supplemental content to provide properly formatted supplemental content through the same stream as the primary content. A custom manifest can be provided to the media player that points to the transcoded supplemental content. At an appropriate break in the playback, the media player can use the manifest to obtain the formatted supplemental content.

Disclosed are systems and methods for lightweight transcoding of video. A distributed computing system for lightweight transcoding includes an origin server and an edge node, the origin server having a memory and a processor and configured to receive an input video comprising a bitstream, encode the bitstream into a set of representations corresponding to a full bitrate ladder, generate encoding metadata for the set of representations, and provide a representation and encoding metadata for the set of representations to an edge node, the edge node having a memory and a processor and configured to transcode the bitstream, or segments thereof, into the set of representations, and to serve one or more of the representations to a client.