Error Resilient Video Coding In The Iso Mpeg 4 Standard
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Request full-text Error-resilient video coding in the ISO MPEG-4 standardArticle in IEEE Communications Magazine 36(6):112 - 119 · July 1998 with 21 ReadsDOI: 10.1109/35.685373 · Source: IEEE Xplore1st Raj TalluriAbstractThis article describes error resilience aspects of the video coding techniques that are standardized in the ISO MPEC-4 standard. It begins with a description of the general problems in robust wireless video transmission. The specific tools adopted into the ISO MPEG-4 standard to enable the communication of compressed video data over noisy http://ieeexplore.ieee.org/abstract/document/685373/ wireless channels are presented in detail. These techniques include resynchronization strategies, data partitioning, reversible variable length codes (VLCs), and header extension codes. An overview of the evolving ISO MPEG-4 standard and its current status are describedDo you want to read the rest of this article?Request full-text CitationsCitations242ReferencesReferences27Scene content driven FEC allocation for video streaming"With https://www.researchgate.net/publication/3195867_Error-resilient_video_coding_in_the_ISO_MPEG-4_standard increasing demands of multimedia data transmission over internet 2 and mobile network [1], error resiliency [2, 3, 4] [11, 12, 13, 14, 15, 16, 17, 18, 19] "[Show abstract] [Hide abstract] ABSTRACT: Unequal error protection schemes applied on video data streams, considering varying importance of data packets over a group of pictures (GOP), are more efficient in terms of rate-distortion performance at different loss rates. Important ordering policy adopted so far, mostly considered as frame positions within a GOP. In the present work, we offer significant importance to the packets containing scene-transition frames, as these should be better error protected. We adopt a strategy of Forward Error Correcting (FEC) Code allocation, based on the minimization of end-to-end distortion up to the decoder, assuming that error concealment is adopted at the decoder. Two FEC allocation strategies are proposed within the Block of Packets (BOP) structure — one is an iterative modified hill climbing approach and the other is a reduced complexity heuristic a
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