Visual Media Coding and Transmission (eBook)
588 Seiten
Wiley (Verlag)
978-0-470-74065-1 (ISBN)
Visual Media Coding and Transmission is an output of VISNET II NoE, which is an EC IST-FP6 collaborative research project by twelve esteemed institutions from across Europe in the fields of networked audiovisual systems and home platforms. The authors provide information that will be essential for the future study and development of visual media communications technologies. The book contains details of video coding principles, which lead to advanced video coding developments in the form of Scalable Coding, Distributed Video Coding, Non-Normative Video Coding Tools and Transform Based Multi-View Coding. Having detailed the latest work in Visual Media Coding, networking aspects of Video Communication is detailed. Various Wireless Channel Models are presented to form the basis for both link level quality of service (QoS) and cross network transmission of compressed visual data. Finally, Context-Based Visual Media Content Adaptation is discussed with some examples.
Key Features:
- Contains the latest advances in this important field covered by VISNET II NoE
- Addresses the latest multimedia signal processing and coding algorithms
- Covers all important advance video coding techniques, scalable and multiple description coding, distributed video coding and non-normative tools
- Discusses visual media networking with various wireless channel models
- QoS methods by way of link adaptation techniques are detailed with examples
- Presents a visual media content adaptation platform, which is both context aware and digital rights management enabled
- Contains contributions from highly respected academic and industrial organizations
Visual Media Coding and Transmission will benefit researchers and engineers in the wireless communications and signal processing fields. It will also be of interest to graduate and PhD students on media processing, coding and communications courses.
Professor Ahmet Kondoz, University of Surrey, Guildford
Professor Kondoz is a Deputy Director in the Centre for Communication Systems Research (CCSR) at the University of Surrey. His current research interests are low bit rate speech, image and video coding error resilient video transmission, mobile multimedia communications, robust wireless ATM, real-time terminal design and implementation for mobile communications. He is the author/co-author of more than 130 publications. His book entitled DIGITAL SPEECH: Coding for Low Bit Rate Communication Systems published by John Wiley & sons in 1994 has been accepted as a standard text in low bit rate speech coding by many engineers and universities.
This book presents the state-of-the-art in visual media coding and transmission Visual Media Coding and Transmission is an output of VISNET II NoE, which is an EC IST-FP6 collaborative research project by twelve esteemed institutions from across Europe in the fields of networked audiovisual systems and home platforms. The authors provide information that will be essential for the future study and development of visual media communications technologies. The book contains details of video coding principles, which lead to advanced video coding developments in the form of Scalable Coding, Distributed Video Coding, Non-Normative Video Coding Tools and Transform Based Multi-View Coding. Having detailed the latest work in Visual Media Coding, networking aspects of Video Communication is detailed. Various Wireless Channel Models are presented to form the basis for both link level quality of service (QoS) and cross network transmission of compressed visual data. Finally, Context-Based Visual Media Content Adaptation is discussed with some examples. Key Features: Contains the latest advances in this important field covered by VISNET II NoE Addresses the latest multimedia signal processing and coding algorithms Covers all important advance video coding techniques, scalable and multiple description coding, distributed video coding and non-normative tools Discusses visual media networking with various wireless channel models QoS methods by way of link adaptation techniques are detailed with examples Presents a visual media content adaptation platform, which is both context aware and digital rights management enabled Contains contributions from highly respected academic and industrial organizations Visual Media Coding and Transmission will benefit researchers and engineers in the wireless communications and signal processing fields. It will also be of interest to graduate and PhD students on media processing, coding and communications courses.
Professor Ahmet Kondoz, University of Surrey, Guildford Professor Kondoz is a Deputy Director in the Centre for Communication Systems Research (CCSR) at the University of Surrey. His current research interests are low bit rate speech, image and video coding error resilient video transmission, mobile multimedia communications, robust wireless ATM, real-time terminal design and implementation for mobile communications. He is the author/co-author of more than 130 publications. His book entitled DIGITAL SPEECH: Coding for Low Bit Rate Communication Systems published by John Wiley & sons in 1994 has been accepted as a standard text in low bit rate speech coding by many engineers and universities.
VISNET II Researchers.
Preface.
Glossary of Abbreviations.
1 Introduction.
2 Video Coding Principles.
2.1 Introduction.
2.2 Redundancy in Video Signals.
2.3 Fundamentals of Video Compression.
2.4 Advanced Video Compression Techniques.
2.5 Video Codec Standards.
2.6 Assessment of Video Quality.
2.7 Conclusions.
References.
3 Scalable Video Coding.
3.1 Introduction.
3.2 Overview of the State of the Art.
3.3 Scalable Video Coding Techniques.
3.4 Error Robustness for Scalable Video and Image Coding.
3.5 Conclusions.
References.
4 Distributed Video Coding.
4.1 Introduction.
4.2 Distributed Source Coding.
4.3 Stopping Criteria for a Feedback Channel-based TransformDomain Wyner-Ziv Video Codec.
4.4 Rate-distortion Analysis of Motion-compensated Interpolationat the Decoder in Distributed Video Coding.
4.5 Nonlinear Quantization Technique for Distributed VideoCoding.
4.6 Symmetric Distributed Coding of Stereo Video Sequences.
4.7 Studying Error-resilience Performance for a FeedbackChannel-based Transform Domain Wyner-Ziv Video Codec.
4.8 Modeling the DVC Decoder for Error-prone WirelessChannels.
4.9 Error Concealment Using a DVC Approach for Video StreamingApplications.
4.10 Conclusions.
References.
5 Non-normative Video Coding Tools.
5.1 Introduction.
5.2 Overview of the State of the Art.
5.3 Rate Control Architecture for Joint MVS Encoding andTranscoding.
5.4 Bit Allocation and Buffer Control for MVS Encoding RateControl.
5.5 Optimal Rate Allocation for H.264/AVC Joint MVSTranscoding.
5.6 Spatio-temporal Scene-level Error Concealment for SegmentedVideo.
5.7 An Integrated Error-resilient Object-based Video CodingArchitecture.
5.8 A Robust FMO Scheme for H.264/AVC Video Transcoding.
5.9 Conclusions.
References.
6 Transform-based Multi-view Video Coding.
6.1 Introduction.
6.2 MVC Encoder Complexity Reduction using a Multi-gridPyramidal Approach.
6.3 Inter-view Prediction using Reconstructed DisparityInformation.
6.4 Multi-view Coding via Virtual View Generation.
6.5 Low-delay Random View Access in Multi-view Coding Using aBit Rate-adaptive Downsampling Approach.
References.
7 Introduction to Multimedia Communications.
7.1 Introduction.
7.2 State of the Art: Wireless Multimedia Communications.
7.3 Conclusions.
References.
8 Wireless Channel Models.
8.1 Introduction.
8.2 GPRS/EGPRS Channel Simulator.
8.3 UMTS Channel Simulator.
8.4 WiMAX IEEE 802.16e Modeling.
8.5 Conclusions.
References.
9 Enhancement Schemes for Multimedia Transmission overWireless Networks.
9.1 Introduction.
9.2 Link-level Quality Adaptation Techniques.
9.3 Link Adaptation for Video Services.
9.4 User-centric Radio Resource Management in UTRAN.
9.5 Conclusions.
References.
10 Quality Optimization for Cross-network MediaCommunications.
10.1 Introduction.
10.2 Generic Inter-networked QoS-optimizationInfrastructure.
10.3 Implementation of a QoS-optimized Inter-networkedEmulator.
10.4 Performances of Video Transmission in Inter-networkedSystems.
10.5 Conclusions.
References.
11 Context-based Visual Media Content Adaptation.
11.1 Introduction.
11.2 Overview of the State of the Art in Context-aware ContentAdaptation.
11.3 Other Standardization Efforts by the IETF and W3C.
11.4 Summary of Standardization Activities.
11.5 Generation of Contextual Information and Profiling.
11.6 The Application Scenario for Context-based Adaptation ofGoverned Media Contents.
11.7 Conclusions.
References.
Index.
| Erscheint lt. Verlag | 1.4.2009 |
|---|---|
| Sprache | englisch |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| Technik ► Nachrichtentechnik | |
| Schlagworte | Audio & Speech Processing & Broadcasting • Audio-, Sprachverarbeitung u. Ãbertragung • Audio-, Sprachverarbeitung u. Übertragung • Electrical & Electronics Engineering • Elektrotechnik u. Elektronik • Kommunikationstechnik • Signal Processing • Signalverarbeitung |
| ISBN-10 | 0-470-74065-5 / 0470740655 |
| ISBN-13 | 978-0-470-74065-1 / 9780470740651 |
| Haben Sie eine Frage zum Produkt? |
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