Systems, methods, and program products for matching electronic audio files (such as songs) to associated electronic video work excerpts or electronic video clips from movies, televisions shows or advertisements in accordance with one or more sync licenses and generating and providing graphical representations of such video clips are disclosed.

Systems, methods, and program products for matching electronic audio files (such as songs) to associated electronic video work excerpts or electronic video clips from movies, televisions shows or advertisements in accordance with one or more sync licenses and generating and providing graphical representations of such video clips are disclosed.

A main stream contains successive content elements of video and/or audio information that encode video and/or audio information at a first data rate. A computation circuit (144) computes main fingerprints from the successive content elements. A reference stream is received having a second data rate lower than the first data rate. The reference stream defines a sequence of the reference fingerprints. A comparator unit (144) compares the main fingerprints with the reference fingerprints. The main stream is monitored for the presence of inserted content elements between original content elements, where the original content elements have main fingerprints that match successive reference fingerprints and the inserted content elements have main fingerprints that do not match reference fingerprints. Rendering of inserted content elements to be skipped. In an embodiment when more than one content element matches only one is rendered. In another embodiment matching is used to control zapping to or from the main stream. In another embodiment matching is used to control linking of separately received mark-up information such as subtitles to points in the main stream.

A main stream contains successive content elements of video and/or audio information that encode video and/or audio information at a first data rate. A computation circuit (144) computes main fingerprints from the successive content elements. A reference stream is received having a second data rate lower than the first data rate. The reference stream defines a sequence of the reference fingerprints. A comparator unit (144) compares the main fingerprints with the reference fingerprints. The main stream is monitored for the presence of inserted content elements between original content elements, where the original content elements have main fingerprints that match successive reference fingerprints and the inserted content elements have main fingerprints that do not match reference fingerprints. Rendering of inserted content elements to be skipped. In an embodiment when more than one content element matches only one is rendered. In another embodiment matching is used to control zapping to or from the main stream. In another embodiment matching is used to control linking of separately received mark-up information such as subtitles to points in the main stream.

Audio-video broadcasting equipment receiving an audio-video stream includes an inbound audio stream and an inbound video stream and connected to audio reproduction equipment via a one-directional audio link and via a communication link. The equipment includes a first processing unit arranged to introduce identification data in the inbound audio stream to produce an outbound audio stream; transmit said audio stream to the audio reproduction equipment via the one-directional audio link, such that said audio reproduction equipment reproduces said outbound audio stream; receive, via the communication link, an audio latency value induced by the audio reproduction equipment; synchronise an outbound video stream, produced from the inbound video stream, with the outbound audio stream by using the latency value, and reproduce the outbound video stream.

The disclosed computer-implemented method includes determining, for multiple different media items, a current time scale at which the media items are encoded for distribution, where at least two of the media items are encoded at different frame rates. The method then includes identifying, for the media items, a unified time scale that provides a constant frame interval for each of the media items. The method also includes changing at least one of the media items from the current time scale to the identified unified time scale to provide a constant frame interval for the changed media item(s). Various other methods, systems, and computer-readable media are also disclosed.

A method includes capturing video frames of a video item to be transmitted as a livestream and delivering the video frames to a queue for an encoder of a user device. The method further includes determining that a subset of the video frames have been discarded. The discarding indicates that the subset of the video frames did not enter the encoder. The method further includes determining a frequency of discarded video frames. Responsive to the frequency exceeding a threshold frequency, the method includes reducing quality of the video item transmitted as the livestream based on the frequency by reducing one or more of frame rate of the user device, resolution of the user device, or encoder bitrate of the encoder.

A method includes capturing video frames of a video item to be transmitted as a livestream and delivering the video frames to a queue for an encoder of a user device. The method further includes determining that a subset of the video frames have been discarded. The discarding indicates that the subset of the video frames did not enter the encoder. The method further includes determining a frequency of discarded video frames. Responsive to the frequency exceeding a threshold frequency, the method includes reducing quality of the video item transmitted as the livestream based on the frequency by reducing one or more of frame rate of the user device, resolution of the user device, or encoder bitrate of the encoder.

A method and apparatus are described. The method includes receiving a set of audio soundtracks associated with media content, determining if one of the audio soundtracks is an audio description soundtrack, and modifying at least one main audio soundtrack to include an indication that an audio description soundtrack is available for the media content if it is determined that one of the audio soundtracks is an audio description audio soundtrack. The apparatus includes memory that stores a set of audio soundtracks associated with media content. The apparatus also includes an audio processing circuit configured to retrieve the set of audio soundtracks, determine if one of the audio soundtracks is an audio description soundtrack, and modify at least one main audio soundtrack to include an indication that an audio description soundtrack is available for the media content if it is determined that one of the audio soundtracks is an audio description soundtrack.

An audio processing system (100) accepts an audio bitstream having one of a plurality of predefined audio frame rates. The system comprises a front-end component (110), which receives a variable number of quantized spectral components, corresponding to one audio frame in any of the predefined audio frame rates, and performs an inverse quantization according to predetermined, frequency-dependent quantization levels. The front-end component may be agnostic of the audio frame rate. The audio processing system further comprises a frequency-domain processing stage (120) and a sample rate converter (130), which provide a reconstructed audio signal sampled at a target sampling frequency independent of the audio frame rate. By its frame-rate adaptability, the system can be configured to operate frame-synchronously in parallel with a video processing system that accepts plural video frame rates.