gogogo
Syndetics cover image
Image from Syndetics

The MPEG handbook / John Watkinson.

By: Material type: TextTextPublication details: Oxford : Focal, 2004.Edition: 2nd edDescription: 470 pISBN:
  • 024080578X (hbk.)
  • 9780240805788 (hbk.)
Subject(s): DDC classification:
  • 621.389 WAT
Holdings
Item type Current library Call number Copy number Status Date due Barcode
Standard Loan Thurles Library Main Collection 621.389 WAT (Browse shelf(Opens below)) Available R18547MKRC
Standard Loan Thurles Library Main Collection 621.389 WAT (Browse shelf(Opens below)) 1 Available R18544JKRC
Standard Loan Thurles Library Main Collection 621.389 WAT (Browse shelf(Opens below)) 1 Available R18543AKRC
Standard Loan Thurles Library Main Collection 621.389 WAT (Browse shelf(Opens below)) 1 Available R18541XKRC

Enhanced descriptions from Syndetics:

A complete, professional 'bible' on all aspects of audio and video compression using MPEG technology, including the MPEG-4 standard and, in this second edition, H-264. The clarity of explanation and depth of technical detail combine to make this book an essential and definitive reference work. THE MPEG HANDBOOK is both a theoretical and practical treatment of the subject. Fundamental knowledge is provided alongside practical guidance on how to avoid pitfalls and poor quality. The often-neglected issues of reconstructing the signal timebase at the decoder and of synchronizing the signals in a multiplex are treated fully here. Previously titled MPEG-2, the book is frequently revised to cover the latest applications of the technology.

Previous ed.: 2001.

Table of contents provided by Syndetics

  • Preface (p. xi)
  • Acknowledgements (p. xii)
  • Chapter 1 Introduction to compression (p. 1)
  • 1.1 What is MPEG? (p. 1)
  • 1.2 Why compression is necessary (p. 3)
  • 1.3 MPEG-1, 2, 4 and H.264 contrasted (p. 4)
  • 1.4 Some applications of compression (p. 5)
  • 1.5 Lossless and perceptive coding (p. 7)
  • 1.6 Compression principles (p. 9)
  • 1.7 Video compression (p. 14)
  • 1.7.1 Intra-coded compression (p. 16)
  • 1.7.2 Inter-coded compression (p. 16)
  • 1.7.3 Introduction to motion compensation (p. 18)
  • 1.7.4 Film-originated video compression (p. 19)
  • 1.8 Introduction to MPEG-1 (p. 21)
  • 1.9 MPEG-2: Profiles and Levels (p. 21)
  • 1.10 Introduction to MPEG-4 (p. 24)
  • 1.11 Introduction to H.264 (AVC) (p. 26)
  • 1.12 Audio compression (p. 28)
  • 1.12.1 Sub-band coding (p. 28)
  • 1.12.2 Transform coding (p. 28)
  • 1.12.3 Predictive coding (p. 29)
  • 1.13 MPEG bitstreams (p. 29)
  • 1.14 Drawbacks of compression (p. 30)
  • 1.15 Compression pre-processing (p. 32)
  • 1.16 Some guidelines (p. 32)
  • References (p. 33)
  • Chapter 2 Fundamentals (p. 35)
  • 2.1 What is an audio signal? (p. 35)
  • 2.2 What is a video signal? (p. 35)
  • 2.3 Types of video (p. 36)
  • 2.4 What is a digital signal? (p. 38)
  • 2.5 Sampling (p. 41)
  • 2.6 Reconstruction (p. 46)
  • 2.7 Aperture effect (p. 50)
  • 2.8 Choice of audio sampling rate (p. 52)
  • 2.9 Video sampling structures (p. 56)
  • 2.10 The phase-locked loop (p. 58)
  • 2.11 Quantizing (p. 60)
  • 2.12 Quantizing error (p. 61)
  • 2.13 Dither (p. 65)
  • 2.14 Introduction to digital processing (p. 67)
  • 2.15 Logic elements (p. 69)
  • 2.16 Storage elements (p. 71)
  • 2.17 Binary coding (p. 73)
  • 2.18 Gain control (p. 84)
  • 2.19 Floating-point coding (p. 85)
  • 2.20 Multiplexing principles (p. 87)
  • 2.21 Packets (p. 88)
  • 2.22 Statistical multiplexing (p. 88)
  • 2.23 Timebase correction (p. 89)
  • References (p. 91)
  • Chapter 3 Processing for compression (p. 92)
  • 3.1 Introduction (p. 92)
  • 3.2 Transforms (p. 95)
  • 3.3 Convolution (p. 97)
  • 3.4 FIR and IIR filters (p. 97)
  • 3.5 FIR filters (p. 100)
  • 3.6 Interpolation (p. 107)
  • 3.7 Downsampling filters (p. 116)
  • 3.8 The quadrature mirror filter (p. 117)
  • 3.9 Filtering for video noise reduction (p. 121)
  • 3.10 Warping (p. 123)
  • 3.11 Transforms and duality (p. 129)
  • 3.12 The Fourier transform (p. 132)
  • 3.13 The discrete cosine transform (DCT) (p. 138)
  • 3.14 The wavelet transform (p. 140)
  • 3.15 The importance of motion compensation (p. 147)
  • 3.16 Motion-estimation techniques (p. 150)
  • 3.16.1 Block matching (p. 150)
  • 3.16.2 Gradient matching (p. 152)
  • 3.16.3 Phase correlation (p. 153)
  • 3.17 Motion-compensated displays (p. 158)
  • 3.18 Camera-shake compensation (p. 159)
  • 3.19 Motion-compensated de-interlacing (p. 161)
  • 3.20 Compression and requantizing (p. 162)
  • References (p. 167)
  • Chapter 4 Audio compression (p. 169)
  • 4.1 Introduction (p. 169)
  • 4.2 The deciBel (p. 170)
  • 4.3 Audio level metering (p. 175)
  • 4.4 The ear (p. 177)
  • 4.5 The cochlea (p. 180)
  • 4.6 Level and loudness (p. 182)
  • 4.7 Frequency discrimination (p. 183)
  • 4.8 Critical bands (p. 184)
  • 4.9 Beats (p. 187)
  • 4.10 Codec level calibration (p. 188)
  • 4.11 Quality measurement (p. 189)
  • 4.12 The limits (p. 191)
  • 4.13 Compression applications (p. 192)
  • 4.14 Audio compression tools (p. 192)
  • 4.15 Sub-band coding (p. 197)
  • 4.16 Audio compression formats (p. 198)
  • 4.17 MPEG audio compression (p. 199)
  • 4.18 MPEG Layer I audio coding (p. 201)
  • 4.19 MPEG Layer II audio coding (p. 206)
  • 4.20 MPEG Layer III audio coding (p. 208)
  • 4.21 MPEG-2 AAC - advanced audio coding (p. 212)
  • 4.22 Dolby AC-3 (p. 218)
  • 4.23 MPEG-4 audio (p. 219)
  • 4.24 MPEG-4 AAC (p. 220)
  • 4.25 Compression in stereo and surround sound (p. 221)
  • References (p. 227)
  • Chapter 5 MPEG video compression (p. 230)
  • 5.1 The eye (p. 230)
  • 5.2 Dynamic resolution (p. 234)
  • 5.3 Contrast (p. 238)
  • 5.4 Colour vision (p. 240)
  • 5.5 Colour difference signals (p. 240)
  • 5.6 Progressive or interlaced scan? (p. 245)
  • 5.7 Spatial and temporal redundancy in MPEG (p. 250)
  • 5.8 I and P coding (p. 255)
  • 5.9 Bidirectional coding (p. 256)
  • 5.10 Coding applications (p. 259)
  • 5.11 Intra-coding (p. 260)
  • 5.12 Intra-coding in MPEG-1 and MPEG-2 (p. 265)
  • 5.13 A bidirectional coder (p. 270)
  • 5.14 Slices (p. 274)
  • 5.15 Handling interlaced pictures (p. 275)
  • 5.16 MPEG-1 and MPEG-2 coders (p. 281)
  • 5.17 The elementary stream (p. 282)
  • 5.18 An MPEG-2 decoder (p. 283)
  • 5.19 MPEG-4 and AVC (p. 286)
  • 5.20 Video objects (p. 288)
  • 5.21 Texture coding (p. 291)
  • 5.22 Shape coding (p. 297)
  • 5.23 Padding (p. 299)
  • 5.24 Video object coding (p. 301)
  • 5.25 Two-dimensional mesh coding (p. 303)
  • 5.26 Sprites (p. 308)
  • 5.27 Wavelet-based compression (p. 310)
  • 5.28 Three-dimensional mesh coding (p. 315)
  • 5.29 Animation (p. 324)
  • 5.30 Scaleability (p. 326)
  • 5.31 Advanced Video Coding (AVC) (p. 328)
  • 5.32 Motion compensation in AVC (p. 335)
  • 5.33 An AVC codec (p. 337)
  • 5.34 AVC profiles and levels (p. 340)
  • 5.35 Coding artifacts (p. 340)
  • 5.36 MPEG and concatenation (p. 346)
  • References (p. 352)
  • Chapter 6 MPEG bitstreams (p. 353)
  • 6.1 Introduction (p. 353)
  • 6.2 Packets and time stamps (p. 355)
  • 6.3 Transport streams (p. 357)
  • 6.4 Clock references (p. 359)
  • 6.5 Program Specific Information (PSI) (p. 361)
  • 6.6 Multiplexing (p. 362)
  • 6.7 Remultiplexing (p. 364)
  • Reference (p. 365)
  • Chapter 7 MPEG applications (p. 366)
  • 7.1 Introduction (p. 366)
  • 7.2 Telephones (p. 367)
  • 7.3 Digital television broadcasting (p. 368)
  • 7.4 The DVB receiver (p. 381)
  • 7.5 ATSC (p. 383)
  • 7.6 CD-Video and DVD (p. 389)
  • 7.7 Personal video recorders (p. 394)
  • 7.8 Networks (p. 397)
  • 7.9 FireWire (p. 405)
  • 7.10 Broadband networks and ATM (p. 407)
  • 7.11 ATM AALs (p. 411)
  • References (p. 414)
  • Index (p. 415)

Author notes provided by Syndetics

Independent consultant in Digital Video, Audio and Data Technology.

050

Powered by Koha