Error Resilient Video Coding In The Is0 Mpeg 4 Standard
Communication, Networking & Broadcasting Components, Circuits, Devices & Systems Computing & Processing Engineered Materials, Dielectrics & Plasmas Engineering Profession Fields, Waves & Electromagnetics General Topics for Engineers Geoscience Nuclear Engineering Photonics & Electro-Optics Power, Energy, & Industry Applications Robotics & Control Systems Signal Processing & Analysis Transportation Browse Books & eBooks Conference Publications Courses Journals & Magazines Standards By Topic My Settings Content Alerts My Projects Search Alerts Preferences Purchase History Search History What can I access? Get Help About IEEE Xplore Feedback Technical Support Resources and Help Terms of Use What Can I Access? Subscribe Personal Sign In Create Account IEEE Account Change Username/Password Update Address Purchase Details Payment Options Order History View Purchased Documents Profile Information Communications Preferences Profession and Education Technical Interests Need Help? US & Canada: +1 800 678 4333 Worldwide: +1 732 981 0060 Contact & Support About IEEE Xplore Contact Us Help Terms of Use Nondiscrimination Policy Sitemap Privacy & Opting Out of Cookies A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity.© Copyright 2016 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.
Request full-text Error-resilient video coding in the ISO MPEG-4 standardArticle in IEEE Communications Magazine 36(6):112 - 119 · July 1998 with 20 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 http://ieeexplore.ieee.org/document/685373 data over noisy 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 https://www.researchgate.net/publication/3195867_Error-resilient_video_coding_in_the_ISO_MPEG-4_standard allocation for video streaming"With 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 approa
Video Audio Conformance testing Software simulation System extensions - DSM-CC Advanced Audio CodingOverview of the Report on the Formal Subjective http://mpeg.chiariglione.org/standards/mpeg-4/video Listening Tests of MPEG-2 NBC multichannel audio coding Report on the Formal Subjective Listening Tests of MPEG-2 NBC multichannel audio coding. Report on the MPEG-2 AAC Stereo Verification Tests Revised report on complexity of MPEG-2 AAC tools VOID System extension RTI Conformance extension - DSM-CC IPMP on MPEG-2 Systems error resilient MPEG-4Systems Video AudioFormal Verification Report on MPEG-4 Parametric Audio Coding Listening Test Report on HE-AAC V2 MPEG-4 Audio verification test results: Audio on Internet MPEG-4 Audio verification test results: Speech Codecs Report on Informal Subjective Quality Tests of MPEG-4 Extension 1 (Bandwidth Extension) Report on MPEG-4 AAC-ELD Verification Tests error resilient video Report on MPEG-4 Version 2 Audio Verification Test Report on Transmission of MPEG-4 Audio over RTP Report on the MPEG-4 audio NADIB verification tests Report on the Verification Tests of MPEG-4 High Efficiency AAC Revised Report on complexity of MPEG-2 AAC Tools Verification Report on MPEG-4 ALS Verification Report on MPEG-4 SLS Conformance testingISO/IEC ISO/IEC 14496-5:2009/PDAM6 Pattern based 3D mesh compression conformance Reference Software Delivery Multimedia Integration Framework Optimised software for MPEG-4 tools 4 on IP framework Reference Hardware Description Advanced Video Coding3D-AVC Test Model 8 Report of Results of the CfP on MFC Scene Description and Application EngineRevised text of ISO/IEC CD 14496-11 2nd edition ISO Base Media File FormatText of ISO/IEC 14496-12 DCOR 1 Text of ISO/IEC 14496-12:201X/PDAM 2 & ISO/IEC 15444-12:201X/PDAM 2 carriage of timed text WD of ISO/IEC 14496-12:2012 AMD 4 Enhanced audio support WD of ISO/IEC 14496-12:2012 AMD 4 Enhanced audi