A system and method for remotely transcoding content includes a set top box generating a playlist corresponding to content titles stored in a memory of the set top box. A user device is in communication with the cloud location and the set top box through a network. The user device reviews the playlist and selects a first content title from the playlist to form a selection. The cloud location includes a transcoder device transcoding content corresponding to the selection to form transcoded content. One of the cloud location and the set top box communicates the transcoded content to the user device.

The present invention provides a method and a system for setting a video cover. The method includes: receiving, by a codec service cluster, a cover creation request carrying cover parameters of a target video, and obtaining, by the codec service cluster, a video file of the target video, wherein the cover parameters at least include a video segment identifier, a video segment rewind demand, and a video segment playback speed; according to the cover parameters of the target video and the video file of the target video, generating, by the codec service cluster, a cover video file of the target video; and feeding back, by the codec service cluster, the cover video file of the target video to enable a feedback receiver to set the video cover for the target video based on the cover video file.

An IP uncompressed video encoder that converts an IP packet stream of uncompressed video to an IP packet stream of compressed video. A video encoder that produces an IP packetized stream of compressed video from an IP packetized stream of an uncompressed video signal, including: receiving means packetizing, from a network, one or a plurality of IP packetized streams of an uncompressed video signal; retrieving means for retrieving video data from the one or plurality of IP packetized streams of the uncompressed video signal; compressing means for compressing the retrieved video data; and transmitting means configured to IP packetize video compressed by the compressing means to create and transmit a stream of compressed video.

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.

New systems and methods allow for transmission of multiple types of content protocols over a unidirectional content delivery network, such as a television broadcast. Hardware and/or software used at the network transmission location (such as a television broadcast station) and hardware and/or software located at an endpoint (such as a home television, car infotainment system, or first responder location) allow for a native ATSC 1.0 signal to have embedded within it additional content that is not encoded as ATSC 1.0 content. The non-ATSC 1.0 content can be detected and segregated from ATSC 1.0 content so that the endpoint devices (such as a television receiver) will not attempt to render the non-ATSC 1.0 content (such as, e.g., ATSC 3.0 content or application specific content) as normal ATSC 1.0 programming. Instead, the non-ATSC 1.0 content will be separately decoded, assembled, and processed to allow for multiple types of content to be used and displayed by the endpoint, even though the broadcast signal was transmitted only as an ATSC 1.0 signal.

Described herein are techniques and mechanisms for optimizing video clarity. According to various embodiments, a plurality of requests from client devices to access a media content item for playback at the client devices may be received at a server. Each of the client devices may have associated therewith device characteristic information that describes one or more characteristics of the client device. A device characteristic that describes a portion of the client devices may be identified. The portion of the client devices may meet a threshold value for creating a media content encoding item. A media content source item corresponding to the requested media content item may be transcoded to create a media content encoding item. The media content encoding item may be encoded to match the identified device characteristic.

A video source access method and a video source access device are provided. In some embodiments, the method includes acquiring an address identifier of a video source supporting a certain format, where the video source includes video data in the format carrying a timestamp; acquiring, based on the address identifier, the video data in an ascending order of the timestamp carried in the video data; converting the video data from the format into a preset common video format to obtain the video data in the common video format; and inputting the video data in the common video format to a service device to achieve an access to the video source.

A system that incorporates teachings of the present disclosure may include, for example, a media distribution device having a support structure adapted for removably receiving a server module, a plurality of encoders, and an Internet Protocol (IP) router module; and a bus adapted for placing the server module, the plurality of video encoders, and the IP router module in communication with each other, where the server module is adapted to receive media content, where the plurality of video encoders is adapted to generate a plurality of encoded media contents from the media content and the video encoders generate the encoded media contents in temporal proximity to each other, where the IP router module is adapted to distribute the plurality of encoded media contents over an IP network. Other embodiments are disclosed.

A method of encoding and communicating video data comprises encoding a video data file (22) to create an encoded video data file (24) and sending the encoded video data file (24) to a destination (30). A portion of the encoded video data file (24) is sent to the destination (30) at the same time as the video data file (22) is being encoded. New header information for the encoded video data file (44) is sent to the destination (30) when sending the encoded video data file to the destination is complete. The destination (30) can then modify a header (46) of the encoded video data file (44) to include the new header information. This reduces the overall time taken for the video data file to be encoded and sent to the destination (30).

An ad in a movie can be a static ad having a position in the movie that cannot be moved, or a dynamic ad having a position in the movie that can be changed. When a viewer wishes to skip a portion of the movie containing the ad, the playback system determines whether the ad is static or dynamic. If the ad is static, only the portion of the movie preceding the static ad can be skipped; the ad is unskippable. This technique is referred to as “bounceback” since the end of the skip bounces back to the start of the static ad. If the ad is dynamic, it is moved to after the end of the skip. This technique is referred to as “slip-ad” since the ad slips to later in the movie. When a movie has multiple ads, some can be static and some can be dynamic.