Patent application number | Description | Published |
20090016451 | Method and Apparatus for Performing Motion Compensated Temporal Filtering in Video Encoding | 01-15-2009 |
20100329340 | METHOD AND APPARATUS FOR ELIMINATING ENCODING DELAY WHEN A TELECINE SOURCE MATERIAL IS DETECTED - A video encoder includes an inverse telecine detector for receiving video frames and generating a telecine detection signal identifying repeated frames and an encoder pipeline buffer for storing unrepeated video frames received from the inverse telecine detector. The video encoder also includes an encoder engine for encoding the unrepeated video frames received from the encoder pipeline buffer, a pre-encoded frame storage medium for storing pre-encoded frames, and a processor. The processor is configured to cause the encoder engine to replace selected frames that have been identified as repeating frames by the inverse telecine detector with a pre-encoded frame accessed from the pre-encoded frame storage medium. | 12-30-2010 |
20110119064 | AUDIO DATA BIT RATE DETECTOR - A detector for determining an audio data bit rate of a pre-compressed audio elementary stream (AES), in which the pre-compressed AES includes a plurality of preamble length fields is provided. The detector includes an analyzer module configured to determine one or more candidate audio data bit rates of the AES from the plurality of preamble length fields, a detector module configured to determine whether one or more of the candidate audio data bit rates are correct, and a selector module configured to select one of the one or more candidate audio data bit rates determined to be correct as the audio data bit rate of the pre-compressed AES. | 05-19-2011 |
20130064283 | ENCODER-AIDED SEGMENTATION FOR ADAPTIVE STREAMING - In one embodiment, a method for encoding content includes receiving source content and encoding the source content into a plurality of content streams. The encoding includes aligning the plurality of content streams at Group of Pictures (GOP) boundaries. The encoding further includes embedding, in each content stream, metadata identifying segmentation points within the content stream, where the segmentation points correspond to one or more of the GOP boundaries. | 03-14-2013 |
20130064308 | CODING AND DECODING SYNCHRONIZED COMPRESSED VIDEO BITSTREAMS - Coding may include receiving a source video bitstream including source frames and determining information from the source frames. The determined information may include timing information and grouping information and may be utilized in encoding synchronizing processed frames for a synchronized compressed video bitstream. Decoding may include receiving a synchronized compressed video bitstream including the encoding synchronizing processed frames. The decoding may include preparing video chunk files having boundaries defined by the encoding synchronizing processed frames and decoding the prepared video chunk files. | 03-14-2013 |
20130083859 | METHOD TO MATCH INPUT AND OUTPUT TIMESTAMPS IN A VIDEO ENCODER AND ADVERTISEMENT INSERTER - A method, a video processing system, and an electronic device are disclosed. A video transcoder may decode a compressed video data frame creating a decoded video data frame. The video transcoder may embed a network presentation timestamp in the decoded video data frame. The video transcoder may re-encode the decoded video data frame creating a transcoded video data frame. A field programmable gate array may compare the network presentation timestamp with a transcoder presentation timestamp to determine a timestamp offset. | 04-04-2013 |
20140112384 | ALGORITHMS FOR DETERMINING BITRATE FOR A STATISTICAL MULTIPLEXING SYSTEM USING SCENE CHANGE - An improved statistical multiplexer (statmux) system for coding and multiplexing multiple channels of standard definition (SD) digital television data, or multiple panels of high definition (HD) digital television data is provided, the system considering when a scene change occurs. A need parameter (NP) is determined for each of the multiple encoders considering scene change that occur, and the NP is provided to a statmux controller to enable a bit rate to be determined for the encoder. The system considers the new scene data after a scene change as well as current scene data being evaluated to determine data complexity for the NP value. This ensures significantly different complexity data after the scene change does not cause an inadequate bit rate determination. | 04-24-2014 |
20140112385 | ALGORITHMS FOR DETERMINING BITRATE FOR A STATISTICAL MULTIPLEXING SYSTEM TO ENSURE STREAM ALIGNMENT FROM ENCODERS TO THE MULTIPLEXER - A statistical multiplexer (statmux) system for encoding and multiplexing multiple channels of digital television data is provided that limits dropped bits due to misalignment of bit rate allocations to the encoders. Without such a system, if for example an encoder is allotted 0 bits during a first time period and 20 kilobits during a second time period, if the encoder jumps ahead from the first period to the second time period allocation, the 20 kilobits could be output during the 0 bit output allocation time period. This can cause buffer overflow downstream if other encoders are outputting at their maximum rate. To limit such misalignment, a maximum percentage increase of an encoder's bitrate allocation is set from time period to time period based on a formula to prevent bits from being dropped when misalignment occurs. | 04-24-2014 |
20140112386 | ALGORITHMS FOR DETERMINING BITRATE FOR A STATISTICAL MULTIPLEXING SYSTEM TO ACCOUNT FOR SIGNAL COMPLEXITY INCLUDING FILM MODE AND GOP STRUCTURAL CHANGES - A statistical multiplexer (statmux) system for encoding multiple channels of digital television data is provided with improved algorithms for determining bitrate for encoding and decoding to account for signal complexity, including accounting for film mode and GOP structural changes. In film mode when the lower frame per second rate for film mode is identified, rather than faster rate SD or HD modes, instead of determining bit rate from viewing the next picture in the look ahead buffer (LAB), the system looks at a start time stamp for specific data in the LAB. Accounting for GOP structural changes includes identifying the number of pictures (N) between I type pictures in data provided to an encoder and the number of pictures (M) between P type pictures, rather than using a fixed number for N and M. | 04-24-2014 |