书籍详情
压缩视频通信
作者:Abdul H.Sadka著
出版社:科学出版社
出版时间:2004-05-01
ISBN:9787030132420
定价:¥28.00
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内容简介
《国外高校电子信息类优秀教材:压缩视频通信(英文影印版)》为国外高校电子信息类优秀教材(英文影印版)之一。《国外高校电子信息类优秀教材:压缩视频通信(英文影印版)》深入浅出地介绍了自1989年以来几乎全部ISO/ITU-T颁布的数字视频压缩算法标准与多媒体应用建议,加入了IP与ATM的一般技术内容,并体现了最新的研究成果。内容包括数字视频压缩算法、内部网络视频通信的代码转换等。
作者简介
暂缺《压缩视频通信》作者简介
目录
Preface
Acknowledgements
About the Author
1 Introduction
1.1 Background
1.2 Source Material
1.3 Video Quality Assessment and Performance Evaluation
1.4 Outline of the Book
1.5 References
2 Overview of Digital Video Compression Algorithms
2.1 Introduction
2.2 Why Video compression?
2.3 User Requirements from Video
2.4 Contemporary Video Coding Schemes
2.5 Object-based Video Coding
2.6 Conclusions
2.7 References
3 Flow Control in compressed Video Communications
3.1 Introduction
3.2 Bit Rate Variability of Video Coders
3.3 Fixed Rate Coding
3.4 Adjusting Encoding Parameters for Rate Control
3.5 Variable Quantisation Step Size Rate Control
3.6 Improved Quality Rate Control Using ROI Coding
3.7 Rate Control Using Prioritised Information Drop
3.8 Rate Control Using the Internal Feedback Loop
3.9 Reduced Resolution Rate Control
3.10 Rate Control Using Multi-layer Coding
3.11 Fine Granular Scaleability
3.12 Conclusions
3.13 References
4 Error Resilience in Compressed Video Communications
4.1 Introduction
4.2 Effects of Bit Errors on Perceptual Video Quality
4.3 Error Concealment Techniques(Zero-redundancy)
4.4 Data Partitioning
4.5 Forward Error Correction(FEC)in Video Communications
4.6 Duplicate MV Information
4.7 INTRA Refresh
4.8 Robust I-frame
4.9 Modified H.263 for Mobile Applications(H/263/M)
4.10 Two-way Decoding and Reversible VLC
4.11 Error-resilient Entropy Coding(EREC)
4.12 Combined Error Resilience Schemes
4.13 Error Resilience Based on Reference Picture Selection
4.14 Conclusions
4.15 References
5 Video Communications Over Mobile IP Networks
5.1 Introduction
5.2 Evolution of 3G Mobile Networks
5.3 Video Communications from a Network Perspective
5.4 Description of Future Mobile Networks
5.5 Qos Issues for Packet Video over Mobile Networks
5.6 Real-time Video transmissions over Mobile IP Networks
5.7 Quality Optimisation for Video transmissions over Mobile Networks
5.8 Prioritised Transport for Robust Video transmissions over Mobile Networks
5.9 Video Rransmissions over GPRS/UMTS Networks
5.10 Conclusions
5.11 References
6 Video Transcoding for Inter-network Communications
6.1 Introduction
6.2 What is Transcoding?
6.3 Homogeneous Video Transcoding
6.4 Bit Rate Reduction
6.5 Cascaded Fully Decoding/Re-encoding Scheme
6.6 Transcoding With Re-quantisation Scheme
6.7 Transcoding With Motion Data Re-use Scheme
6.8 Transcoding With Motion Data Re-estimation Scheme
6.9 Transcoding With Motion Refinement Scheme
6.10 Performance Evaluation of Rate Reduction Transcoding Algorithms
6.11 Frame Rate Reduction
6.12 Resolution Reduction
6.13 Heterogeneous Video Transcoding
6.14 Video Transcoding for Error-reslience Purposes
6.15 Video Transcoding for Multimedia Traffic Planning
6.16 Conclusions
6.17 References
Appendix A Layering syntax of ITU-T H.263 video coding standard
Appendix B Description of the video clips on the supplementary CD Glossary of Terms
Index
Acknowledgements
About the Author
1 Introduction
1.1 Background
1.2 Source Material
1.3 Video Quality Assessment and Performance Evaluation
1.4 Outline of the Book
1.5 References
2 Overview of Digital Video Compression Algorithms
2.1 Introduction
2.2 Why Video compression?
2.3 User Requirements from Video
2.4 Contemporary Video Coding Schemes
2.5 Object-based Video Coding
2.6 Conclusions
2.7 References
3 Flow Control in compressed Video Communications
3.1 Introduction
3.2 Bit Rate Variability of Video Coders
3.3 Fixed Rate Coding
3.4 Adjusting Encoding Parameters for Rate Control
3.5 Variable Quantisation Step Size Rate Control
3.6 Improved Quality Rate Control Using ROI Coding
3.7 Rate Control Using Prioritised Information Drop
3.8 Rate Control Using the Internal Feedback Loop
3.9 Reduced Resolution Rate Control
3.10 Rate Control Using Multi-layer Coding
3.11 Fine Granular Scaleability
3.12 Conclusions
3.13 References
4 Error Resilience in Compressed Video Communications
4.1 Introduction
4.2 Effects of Bit Errors on Perceptual Video Quality
4.3 Error Concealment Techniques(Zero-redundancy)
4.4 Data Partitioning
4.5 Forward Error Correction(FEC)in Video Communications
4.6 Duplicate MV Information
4.7 INTRA Refresh
4.8 Robust I-frame
4.9 Modified H.263 for Mobile Applications(H/263/M)
4.10 Two-way Decoding and Reversible VLC
4.11 Error-resilient Entropy Coding(EREC)
4.12 Combined Error Resilience Schemes
4.13 Error Resilience Based on Reference Picture Selection
4.14 Conclusions
4.15 References
5 Video Communications Over Mobile IP Networks
5.1 Introduction
5.2 Evolution of 3G Mobile Networks
5.3 Video Communications from a Network Perspective
5.4 Description of Future Mobile Networks
5.5 Qos Issues for Packet Video over Mobile Networks
5.6 Real-time Video transmissions over Mobile IP Networks
5.7 Quality Optimisation for Video transmissions over Mobile Networks
5.8 Prioritised Transport for Robust Video transmissions over Mobile Networks
5.9 Video Rransmissions over GPRS/UMTS Networks
5.10 Conclusions
5.11 References
6 Video Transcoding for Inter-network Communications
6.1 Introduction
6.2 What is Transcoding?
6.3 Homogeneous Video Transcoding
6.4 Bit Rate Reduction
6.5 Cascaded Fully Decoding/Re-encoding Scheme
6.6 Transcoding With Re-quantisation Scheme
6.7 Transcoding With Motion Data Re-use Scheme
6.8 Transcoding With Motion Data Re-estimation Scheme
6.9 Transcoding With Motion Refinement Scheme
6.10 Performance Evaluation of Rate Reduction Transcoding Algorithms
6.11 Frame Rate Reduction
6.12 Resolution Reduction
6.13 Heterogeneous Video Transcoding
6.14 Video Transcoding for Error-reslience Purposes
6.15 Video Transcoding for Multimedia Traffic Planning
6.16 Conclusions
6.17 References
Appendix A Layering syntax of ITU-T H.263 video coding standard
Appendix B Description of the video clips on the supplementary CD Glossary of Terms
Index
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