MARC Record from Library of Congress

LEADER: 06043cam a22003977a 4500
001 2014453540
003 DLC
005 20150414162325.0
008 150413s2011 enka b 001 0 eng
010 $a 2014453540
015 $aGBB030852$2bnb
016 7 $a015494510$2Uk
020 $a9780863419645 (hc)
020 $a086341964X (hc)
035 $a(OCoLC)ocn714797185
040 $aFGM$beng$cFGM$dYDXCP$dUPM$dOCLCQ$dCDX$dOCLCO$dA7U$dCOD$dUKMGB$dOCLCF$dSLY$dDLC
042 $alccopycat
050 00 $aTK6680.5$b.G53 2011
082 04 $a621. 38833$222
100 1 $aGhanbari, M.$q(Mohammed)
245 10 $aStandard codecs :$bimage compression to advanced video coding /$cMohammed Ghanbari.
250 $a3rd ed.
260 $aStevenage :$bInstitution of Engineering and Technology,$cc2011.
300 $axx, [ii], 481 p. :$bill. ;$c24 cm.
490 1 $aIET telecommunications series ;$vv. 54
500 $aPrevious ed.: 2003.
504 $aIncludes bibliographical references and index.
505 0 $aNote continued: 11.5.1. Boundary strength -- 11.5.2. Filtering decision -- 11.5.3. Filter implementation -- 11.6. Entropy coding -- 11.6.1. Exp-Golomb -- 11.6.2. CAVLC encoding for residual data -- 11.6.2.1. Encode number of coefficients and trailing is (T1s) -- 11.6.2.2. Encode sign of each T1 -- 11.6.2.3. Encode levels of nonzero coefficients -- 11.6.2.4. Encode each run of zeros -- 11.6.3. CABAC: Context-adaptive binary arithmetic coding -- 11.6.3.1. Bi narisation -- 11.6.3.2. Context modelling -- 11.6.3.3. Binary arithmetic coding -- 11.7. Rate distortion optimisation -- 11.7.1. Lagrangian optimisation technique -- 11.7.2. Optimisation process -- 11.7.3. Selection of & lambda; -- 11.8. Error resilient encoding -- 11.8.1. Error detection -- 11.8.2. Flexible macroblock ordering (FMO) -- 11.8.3. Data partitioning -- 11.8.4. Intra-MB/IDR -- 11.8.5. Multiple reference pictures -- 11.8.6. Redundant slices -- 11.8.7. Stream switching -- 11.8.7.1. PSP-picture -- 11.8.7.2. SSP-picture -- 11,8.7.3. SI-picture -- 11.8.7.4. Switching between two streams -- 11.8.7.5. Error recovery -- 11.8.7.6. Encoding of switching pictures -- 11.9. Error concealment -- 11.9.1. Weighted pixel value averaging -- 11.9.2. Boundary matching based motion vectors -- 11.10. Profiles and levels -- 11.11.Compression gain and complexity of H.264 -- 11.11.1.Compression gain -- 11.11.2.Complexity -- 11.12. Scalable video coding -- 11.12.1. Temporal scalability -- 11.12.2. Spatial scalability -- 11.12.2.1. Prediction of macroblock modes -- 11.12.2.2. Prediction of residuals -- 11.12.3. Quality (SNR) scalability -- 11.12.4.Combined scalability -- 11.12.5. SVC profiles -- 11.12.5.1. Scalable baseline profile -- 11.12.5.2. Scalable high profile -- 11.12.5.3. Scalable high intra profile -- 11.13.Network abstraction layer -- 11.13.1. NAL header format -- 11.13.2. Parameter sets -- 11.13.3. Access unit -- 11.13.4. NAL type -- 11.13.4.1. NAL for SVC -- 11.14. Problems -- References -- 12.1. MPEG-7: multimedia content description interface -- 12.1.1. Description levels -- 12.1.2. Application area -- 12.1.3. Indexing and query -- 12.1.4. Colour descriptors -- 12.1.4.1. Colour space -- 12.1.4.2. Colour quantisation -- 12.1.4.3. Dominant colour(s) -- 12.1.4.4. Scalable colour -- 12.1.4.5. Colour structure -- 12.1.4.6. Colour layout -- 12.1.4.7. GOP colour -- 12.1.5. Texture descriptors -- 12.1.5.1. Homogeneous texture -- 12.1.5.2. Texture browsing -- 12.1.5.3. Edge histogram -- 12.1.6. Shape descriptors -- 12.1.6.1. Region-based shapes -- 12.1.6.2. Contour-based shape -- 12.1.6.3. Three-dimensional shape -- 12.1.7. Motion descriptors -- 12.1.7.1. Camera motion -- 12.1.7.2. Motion trajectory -- 12.1.7.3. Parametric motion -- 12.1.7.4. Motion activity -- 12.1.8. Localisation -- 12.1.8.1. Region locator -- 12.1.8.2. Spatio-temporal locator -- 12.1.9. Others -- 12.1.9.1. Face recognition -- 12.2. Practical examples of image retrieval -- 12.2.1. Texture-based image retrieval -- 12.2.2. Shape-based retrieval -- 12.2.3. Sketch-based retrieval -- 12.3. MPEG-21: multimedia framework -- 12.3.1. Digital item declaration -- 12.3.2. Digital item identification and description -- 12.3.3. Content handling and usage -- 12.3.4. Intellectual property and management -- 12.3.5. Terminal and networks -- 12.3.6. Content representation -- 12.3.7. Event reporting -- References.
520 $aA fully revised and substantially updated 3rd edition of the best-selling Video Coding: An Introduction to Standard Codecs (IEE 1999, Winner of IEE Rayleigh Award as the best book of 2000), this book discusses the growth of digital television technology from image compression to advanced video coding. This third edition also introduces the latest developments on H.264/MPEG-4 video coding and the scalability defined for this codec, which were not available at the time of the previous edition (IEE 2003). The book highlights the need for standardisation in processing static and moving images and extensively exploits the ITU and ISO/IEC standards defined in this field. The book gives an authoritative explanation of pictures and video coding algorithms, working from basic principles through to the advanced compression systems now being developed. It discusses the reasons behind the introduction of a standard video codec and chosen parameters. Each chapter is devoted to a standard video codec and chapters are introduced in evolutionary manner complementing the earlier chapters. This book will enable readers to appreciate the fundamentals needed to design a video codec for any given application and should prove a valuable resource for managers, engineers and researchers working in this field.
650 0 $aDigital video.
650 0 $aVideo compression.
650 0 $aMPEG (Video coding standard)
650 7 $aDigital video.$2fast$0(OCoLC)fst00893738
650 7 $aMPEG (Video coding standard)$2fast$0(OCoLC)fst01004576
650 7 $aVideo compression.$2fast$0(OCoLC)fst01166400
830 0 $aIET telecommunications series ;$vv. 54.