Video Coding for Wireless Communication Systems Signal Processing Series 1st Edition by King Ngan, Chi . Yap, Keng Tan ISBN 978-0824704896 0824704894
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Video Coding for Wireless Communication Systems Signal Processing Series 1st Edition by King N. Ngan, Chi W. Yap, Keng T. Tan – Ebook PDF Instant Download/Delivery: 978-0824704896, 0824704894
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Product details:
ISBN 10: 0824704894
ISBN 13: 978-0824704896
Author: King N. Ngan, Chi W. Yap, Keng T. Tan
Table of contents:
1 Source Coding
1.1 Image and Video Source Coding
1.2 Picture Quality
1.3 Spatial Source Coding
1.3.1 The Discrete Cosine Transform
1.3.2 Run Length Encoding
1.3.3 Huffman Coding
1.4 The Wavelet Transform
1.4.1 History of Wavelets The Abridged Version
1.4.2 The Short Time Fourier Transform
1.4.3 Wavelet Analysis
1.4.4 Discrete Wavelet Transform
1.4.5 Wavelets for Image Processing
1.4.6 Wavelets Versus JPEG.
1.5 Set Partitioning in Hierarchical Trees
1.6 Temporal Source Coding
1.6.1 Frame Differencing
1.6.2 Motion Estimation and Compensation
1.7 The H.261 Video Coding Standard
1.8 The H.263 Video Coding Standard
1.8.1 Source Coding Algorithm
1.8.2 Picture Formats
1.8.3 H.263 Bitstream Syntax
1.9 Error Resilient Additions to Video Coding Standards.
1.9.1 H.261
1.9.2 H.263 Version 2.
1.9.3 H.324
1.10 Motion Picture Experts Group (MPEG) Versions 1 and 2
1.10.1 MPEG-1
1.10.2 MPEG-2
References.
2 MPEG-4- Standard for Multimedia Applications
2.1 Introduction.
2.2 Features of the MPEG-4 Standard
2.2.1 Coded Representation of Primitive AVOS
2.2.2 Composition of AVOs
2.3 Coding of Natural Visual Objects
2.3.1 Video Object Plane (VOP)
2.3.2 The Encoder
2.3.3 Shape Coding.
2.3.4 Motion Estimation and Compensation
2.3.5 Texture Coding.
2.3.6 Prediction and Coding of B-VOPS
2.3.7 Generalized Scalable Coding
2.3.8 Sprite Coding
2.3.9 Still Image Texture Coding
2.4 Coding of Synthetic Objects
2.4.1 Facial Animation
2.4.2 Body Animation
2.4.3 2-D Animated Meshes
2.5 Error Resilience.
2.5.1 Resynchronization
2.5.2 Data Recovery
2.5.3 Error Concealment
2.5.4 Modes of Operation
2.5.5 Error Resilience Encoding Tools
References.
3 Channel Coding
3.1 Linear Block Codes.
3.1.1 Hamming Codes
3.2 Cyclic Codes
3.2.1 Encoding
3.2.2 Generator and Parity Check Matrix
3.2.3 Error Correction and the Syndrome
3.3 Bose-Chaudhuri-Hocquenghem Codes
3.3.1 Description of BCII Codes
3.3.2 Decoding of BCH Codes
3.4 Reed-Solomon Codes
3.5 Convolutional Codes
3.5.1 Rate Compatible Punctured Convolutional Codes.
3.5.2 The Viterbi Algorithm
3.6 Interleaving
References.
4 Radio Channel Modelling
4.1 Introduction.
4.2 Propagation Environments.
4.2.1 Indoor Wireless Channel
4.2.2 Outdoor/Urban Wireless Channel
4.2.3 Satellite Wireless Channel.
4.3 Radio Channel Parameters
4.3.1 Time Delay Spread and Coherence Bandwidth
4.3.2 Doppler Spread and Coherence Time.
4.3.3 Resolvable Paths
4.3.4 Uplink and Downlink Channel
4.4 Multipath Fading Radio Channel Models
5 Error Resilient Combined Source Channel Image Coder
5.1 Source Significance Information
5.2 Unequal Error Protection
5.3 Error Concealment
5.3.1 Error Concealment Method 1
5.3.2 Error Concealment Method 2
5.4 Simulation
.
5.5 Results and Discussion.
5.6 Conclusion
References.
6 Error Resilient Combined Source Channel Video Coder
6.1 Video Sequence Characteristics
6.2 Source Significance Information
6.2.1 Error Propagation in the H.263 Bitstream
6.3 Unequal Error Protection
6.3.1 Significance Classification
6.4 Synchronisation.
6.4.1 The EREC Algorithm
6.5 Error Concealment
6.5.1 Error Concealment in the Frequency Domain
6.5.2 Error Concealment in the Temporal Domain
6.6 Simulation.
6.7 Results and Discussion
6.7.1 Objective Comparison
6.7.2 Subjective Comparison
6.8 Conclusion
References.
7 Multiple Access in Spread Spectrum Communications
7.1 Introduction.
7.2 Diversity, Multiplexing and Spread Spectrum
7.2.1 Code Division Multiplexing (CDM)
7.2.2 Time Division Multiplexing (TDM)
7.2.3 Frequency Division Multiplexing (FDM)
7.2.4 Direct Sequence and Frequency Hopping Spread Spec-trum
7.3 Code Division Multiple Access (CDMA)
7.3.1 Narrowband DS-CDMA
7.3.2 Wideband CDMA
7.3.3 SMM Based DS-SSMA.
7.4 Time Division Multiple Access (TDMA)
7.4.1 Time Division Multiple Access with Spreading (TD/CDMA/JD-CDMA).
7.4.2 Code Time Division Multiple Access
7.4.3 Time Code Division Multiple Access
7.4.4 Hybrid TDMA/CDMA Mobile Cellular System Us-ing Complementary Code Sets
7.4.5 A Summary on TDMA Based DS-SSMA Schemes
7.5 Frequency Division Multiple Access (FDMA)
7.5.1 Multi-Carrier Based DS-SSMA Schemes
7.5.2 Orthogonal Frequency Divisional Multiplexing and Multi-Carrier Code Division Multiple Access
7.5.3 Multi-Carrier Direct Sequence Code Division Multi-ple Access
7.5.4 Multi-Tone Code Division Multiple Access..
7.5.5 A Summary of Orthogonal Multi-Carrier DS-SSMA Schemes
7.6 Alternative Multiple Access Schemes
7.6.1 Space Division Multiple Access (SDMA)
7.6.2 Opportunity Driven Multiple Access (ODMA)
7.7 Summary
References
8 Future Generation Wireless Video Communication Systems
8.1 Mobile Video over Future Generation Radio Communication
Systems
8.1.1 Source-Channel Mobile Video with EREC over Spread Spectrum Channels.
8.1.2 Digital Television Broadcasting
8.1.3 Scalable Video over Wireless LAN
References
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Tags: King Ngan, Chi Yap, Keng Tan, Video Coding, Communication Systems, Processing Series