Anil Fernando, Stewart T. Worrall, Erhan Ekmekcioglu
3dtv
Processing and Transmission of 3D Video Signals
Anil Fernando, Stewart T. Worrall, Erhan Ekmekcioglu
3dtv
Processing and Transmission of 3D Video Signals
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A novel and timely primer to the 3DTV system chain from capture to display
This book examines all aspects of the 3DTV chain, from capture to display. It helps the reader learn about the key issues for 3DTV technology. It also provides with a systems level appreciation of 3DTV systems, and an understanding of the fundamental principles behind each part of the chain. At the end of each chapter, the author provides resources where readers can learn more about the technology covered (e.g. more focused text books, key journal papers, and key standards contributions). Provides a fundamental and…mehr
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A novel and timely primer to the 3DTV system chain from capture to display
This book examines all aspects of the 3DTV chain, from capture to display. It helps the reader learn about the key issues for 3DTV technology. It also provides with a systems level appreciation of 3DTV systems, and an understanding of the fundamental principles behind each part of the chain. At the end of each chapter, the author provides resources where readers can learn more about the technology covered (e.g. more focused text books, key journal papers, and key standards contributions).
Provides a fundamental and systematic introduction and description of 3DTV key techniques, which build up the whole 3DTV system from capture to consumer viewing at the home.
Addresses the quick moving field of 3D displays which is attracting increasing interest from industry and academia.
Concepts in the book will be illustrated using diagrams and example images of processed 3D content. The 3D content will be presented as 2D images in the book.
Authors to host website providing pointers to more information on the web, freely available tools which would enable readers to experiment with coding video, simulate its transmission over networks, play it back in 3D, and measure the quality and links to important news and developments in the field.
This book examines all aspects of the 3DTV chain, from capture to display. It helps the reader learn about the key issues for 3DTV technology. It also provides with a systems level appreciation of 3DTV systems, and an understanding of the fundamental principles behind each part of the chain. At the end of each chapter, the author provides resources where readers can learn more about the technology covered (e.g. more focused text books, key journal papers, and key standards contributions).
Provides a fundamental and systematic introduction and description of 3DTV key techniques, which build up the whole 3DTV system from capture to consumer viewing at the home.
Addresses the quick moving field of 3D displays which is attracting increasing interest from industry and academia.
Concepts in the book will be illustrated using diagrams and example images of processed 3D content. The 3D content will be presented as 2D images in the book.
Authors to host website providing pointers to more information on the web, freely available tools which would enable readers to experiment with coding video, simulate its transmission over networks, play it back in 3D, and measure the quality and links to important news and developments in the field.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 1W119997320
- 1. Auflage
- Seitenzahl: 224
- Erscheinungstermin: 14. Oktober 2013
- Englisch
- Abmessung: 238mm x 157mm x 17mm
- Gewicht: 460g
- ISBN-13: 9781119997320
- ISBN-10: 1119997321
- Artikelnr.: 36519829
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 1W119997320
- 1. Auflage
- Seitenzahl: 224
- Erscheinungstermin: 14. Oktober 2013
- Englisch
- Abmessung: 238mm x 157mm x 17mm
- Gewicht: 460g
- ISBN-13: 9781119997320
- ISBN-10: 1119997321
- Artikelnr.: 36519829
Anil Fernando, CVSSP, University of Surrey, UK Stewart T. Worrall, Ericsson Television, UK Erhan Ekmekcioglu, CVSSP, University of Surrey, UK
Preface ix Acknowledgements xi List of Abbreviations xiii 1 Introduction 1
1.1 History of 3D Video 2 1.1.1 3D in the Nineteenth Century 3 1.1.2 Early
Twentieth-Century Developments 4 1.1.3 The 1950s 'Golden' Period 6 1.1.4
The 1980s Revival and the Arrival of IMAX 8 1.1.5 The Twenty-first-Century
Revival 12 1.1.6 Auto-Stereoscopic 13 1.1.7 3D Television Broadcasts 14 1.2
3D Video Formats 17 1.2.1 Frame Compatible and Service Compatible
Stereoscopic Video 17 1.2.2 Colour-Plus-Depth 20 1.2.3 Multi-View Video 22
1.2.4 Multi-View Plus Depth Video 23 1.2.5 Layered Depth Video 23 1.3 3D
Video Application Scenarios 25 1.3.1 3DTV Broadcast Systems 25 1.3.2 Mobile
3DTV 26 1.3.3 3D Video on Demand 27 1.3.4 3D Immersive Video-Conferencing
28 1.3.5 Remote Applications 29 1.4 Motivation 29 1.5 Overview of the Book
30 References 31 2 Capture and Processing 34 2.1 3D Scene Representation
Formats and Techniques 34 2.2 3D Video Capturing Techniques 36 2.2.1 Camera
Technologies 37 2.2.2 Stereoscopic Video Capture 39 2.2.3 Multi-View Video
Capture 45 2.2.4 Integral Imaging Capture 50 2.3 3D Video Processing 52
2.3.1 Rectification and Colour Correction 54 2.3.2 Extraction of Range
Images 56 References 59 3 Compression 61 3.1 Video Coding Principles 61 3.2
Overview of Traditional Video Coding Standards 64 3.2.1 Overview of MPEG-4
Part 10/H.264 AVC Standard 65 3.2.2 High Efficiency Video Coding (HEVC) 68
3.3 3D Video Coding 71 3.3.1 Stereoscopic Video Coding 71 3.3.2 Multi-View
Video Coding 73 3.3.3 Coding of Multi-View Plus Depth 78 3.4 Recent Trends
in 3D Video Coding 84 3.4.1 3D Video with AVC-Based Coding Technology 86
3.4.2 3D Video with HEVC-Based Coding Technology 86 References 87 4
Transmission 91 4.1 Challenges of 3D Video Transmission 91 4.2 Error
Resilience and Concealment Techniques 91 4.2.1 Background 92 4.2.2 Error
Resilience Tools 93 4.2.3 Forward Error Correction (FEC) 97 4.3 3D Video
Transmission: Example Scenarios 98 4.3.1 3D Video Broadcast over DVB-T 98
4.3.2 3D Video Streaming over IP Networks 102 4.3.3 3D Video Transmission
over Mobile Broadband 105 4.4 Conclusion 121 References 121 5 Rendering,
Adaptation and 3D Displays 123 5.1 Why Rendering? 123 5.2 3D Video
Rendering 124 5.3 3D Video Adaptation 135 5.3.1 Importance of the Depth Map
in Adaptation 135 5.3.2 Context Adaptation 136 5.3.3 3D Video Adaptation
for Mobile Terminals 136 5.3.4 Multi-View Video Adaptation 138 5.4 3D
Display Technologies 140 5.4.1 Anaglyphic Stereoscopic Displays 141 5.4.2
Passive Stereoscopic Displays 142 5.4.3 Active Stereoscopic Displays 143
5.4.4 Auto-Stereoscopic Displays 144 5.4.5 Light-Field Display 146
References 148 6 Quality Assessment 150 6.1 2D Video Quality Metrics 150
6.1.1 Peak-Signal-to-Noise-Ratio (PSNR) 151 6.1.2 Structural Similarity
Index (SSIM) 151 6.1.3 Video Quality Metric (VQM) 151 6.2 3D Video Quality
152 6.2.1 Image Quality 153 6.2.2 Visual Perception of Depth 153 6.3 3D
Video Quality Evaluation Methods 159 6.3.1 Subjective and Objective Quality
Measurements 162 6.3.2 Effects of Colour Texture Video and Depth Maps on
Perceptual Quality 167 6.4 Modelling the Perceptual Attributes of 3D Video
168 6.4.1 Modelling the Image Quality of 3D Video 169 6.4.2 Modelling the
Depth Quality of 3D Video 170 6.4.3 Compound 3D Video Quality Model 179
6.4.4 Application of the Proposed Quality Models 182 6.4.5 Context
Dependency of Visual Experience 183 6.4.6 3D-Specific Technical Properties
that Affect the Viewing Experience 184 6.5 Conclusion 185 References 186 7
Conclusions and the Future of 3DTV 188 7.1 Chapter Summary 188 7.1.1
Chapter 1: Introduction 188 7.1.2 Chapter 2: Capture and Processing 189
7.1.3 Chapter 3: Compression 189 7.1.4 Chapter 4: Transmission 190 7.1.5
Chapter 5: Rendering and 3D Displays 190 7.1.6 Chapter 6: Quality
Assessment 191 7.2 The Future of 3DTV 191 7.2.1 Understanding of Human 3D
Perception 191 7.2.2 Display Technologies 192 7.2.3 Production Approaches
and Technologies 193 7.2.4 Compression Algorithms 195 7.2.5 Looking Further
Ahead 196 Appendix A Test Video Sequences 197 A.1 2D Video Test Sequences
197 A.2 3D Test Video Sequences 198 Appendix B Introduction to the
Experiment and Questionnaire 200 B.1 Introduction to the Experiment 200 B.2
Questionnaire 203 Index 205
1.1 History of 3D Video 2 1.1.1 3D in the Nineteenth Century 3 1.1.2 Early
Twentieth-Century Developments 4 1.1.3 The 1950s 'Golden' Period 6 1.1.4
The 1980s Revival and the Arrival of IMAX 8 1.1.5 The Twenty-first-Century
Revival 12 1.1.6 Auto-Stereoscopic 13 1.1.7 3D Television Broadcasts 14 1.2
3D Video Formats 17 1.2.1 Frame Compatible and Service Compatible
Stereoscopic Video 17 1.2.2 Colour-Plus-Depth 20 1.2.3 Multi-View Video 22
1.2.4 Multi-View Plus Depth Video 23 1.2.5 Layered Depth Video 23 1.3 3D
Video Application Scenarios 25 1.3.1 3DTV Broadcast Systems 25 1.3.2 Mobile
3DTV 26 1.3.3 3D Video on Demand 27 1.3.4 3D Immersive Video-Conferencing
28 1.3.5 Remote Applications 29 1.4 Motivation 29 1.5 Overview of the Book
30 References 31 2 Capture and Processing 34 2.1 3D Scene Representation
Formats and Techniques 34 2.2 3D Video Capturing Techniques 36 2.2.1 Camera
Technologies 37 2.2.2 Stereoscopic Video Capture 39 2.2.3 Multi-View Video
Capture 45 2.2.4 Integral Imaging Capture 50 2.3 3D Video Processing 52
2.3.1 Rectification and Colour Correction 54 2.3.2 Extraction of Range
Images 56 References 59 3 Compression 61 3.1 Video Coding Principles 61 3.2
Overview of Traditional Video Coding Standards 64 3.2.1 Overview of MPEG-4
Part 10/H.264 AVC Standard 65 3.2.2 High Efficiency Video Coding (HEVC) 68
3.3 3D Video Coding 71 3.3.1 Stereoscopic Video Coding 71 3.3.2 Multi-View
Video Coding 73 3.3.3 Coding of Multi-View Plus Depth 78 3.4 Recent Trends
in 3D Video Coding 84 3.4.1 3D Video with AVC-Based Coding Technology 86
3.4.2 3D Video with HEVC-Based Coding Technology 86 References 87 4
Transmission 91 4.1 Challenges of 3D Video Transmission 91 4.2 Error
Resilience and Concealment Techniques 91 4.2.1 Background 92 4.2.2 Error
Resilience Tools 93 4.2.3 Forward Error Correction (FEC) 97 4.3 3D Video
Transmission: Example Scenarios 98 4.3.1 3D Video Broadcast over DVB-T 98
4.3.2 3D Video Streaming over IP Networks 102 4.3.3 3D Video Transmission
over Mobile Broadband 105 4.4 Conclusion 121 References 121 5 Rendering,
Adaptation and 3D Displays 123 5.1 Why Rendering? 123 5.2 3D Video
Rendering 124 5.3 3D Video Adaptation 135 5.3.1 Importance of the Depth Map
in Adaptation 135 5.3.2 Context Adaptation 136 5.3.3 3D Video Adaptation
for Mobile Terminals 136 5.3.4 Multi-View Video Adaptation 138 5.4 3D
Display Technologies 140 5.4.1 Anaglyphic Stereoscopic Displays 141 5.4.2
Passive Stereoscopic Displays 142 5.4.3 Active Stereoscopic Displays 143
5.4.4 Auto-Stereoscopic Displays 144 5.4.5 Light-Field Display 146
References 148 6 Quality Assessment 150 6.1 2D Video Quality Metrics 150
6.1.1 Peak-Signal-to-Noise-Ratio (PSNR) 151 6.1.2 Structural Similarity
Index (SSIM) 151 6.1.3 Video Quality Metric (VQM) 151 6.2 3D Video Quality
152 6.2.1 Image Quality 153 6.2.2 Visual Perception of Depth 153 6.3 3D
Video Quality Evaluation Methods 159 6.3.1 Subjective and Objective Quality
Measurements 162 6.3.2 Effects of Colour Texture Video and Depth Maps on
Perceptual Quality 167 6.4 Modelling the Perceptual Attributes of 3D Video
168 6.4.1 Modelling the Image Quality of 3D Video 169 6.4.2 Modelling the
Depth Quality of 3D Video 170 6.4.3 Compound 3D Video Quality Model 179
6.4.4 Application of the Proposed Quality Models 182 6.4.5 Context
Dependency of Visual Experience 183 6.4.6 3D-Specific Technical Properties
that Affect the Viewing Experience 184 6.5 Conclusion 185 References 186 7
Conclusions and the Future of 3DTV 188 7.1 Chapter Summary 188 7.1.1
Chapter 1: Introduction 188 7.1.2 Chapter 2: Capture and Processing 189
7.1.3 Chapter 3: Compression 189 7.1.4 Chapter 4: Transmission 190 7.1.5
Chapter 5: Rendering and 3D Displays 190 7.1.6 Chapter 6: Quality
Assessment 191 7.2 The Future of 3DTV 191 7.2.1 Understanding of Human 3D
Perception 191 7.2.2 Display Technologies 192 7.2.3 Production Approaches
and Technologies 193 7.2.4 Compression Algorithms 195 7.2.5 Looking Further
Ahead 196 Appendix A Test Video Sequences 197 A.1 2D Video Test Sequences
197 A.2 3D Test Video Sequences 198 Appendix B Introduction to the
Experiment and Questionnaire 200 B.1 Introduction to the Experiment 200 B.2
Questionnaire 203 Index 205
Preface ix Acknowledgements xi List of Abbreviations xiii 1 Introduction 1
1.1 History of 3D Video 2 1.1.1 3D in the Nineteenth Century 3 1.1.2 Early
Twentieth-Century Developments 4 1.1.3 The 1950s 'Golden' Period 6 1.1.4
The 1980s Revival and the Arrival of IMAX 8 1.1.5 The Twenty-first-Century
Revival 12 1.1.6 Auto-Stereoscopic 13 1.1.7 3D Television Broadcasts 14 1.2
3D Video Formats 17 1.2.1 Frame Compatible and Service Compatible
Stereoscopic Video 17 1.2.2 Colour-Plus-Depth 20 1.2.3 Multi-View Video 22
1.2.4 Multi-View Plus Depth Video 23 1.2.5 Layered Depth Video 23 1.3 3D
Video Application Scenarios 25 1.3.1 3DTV Broadcast Systems 25 1.3.2 Mobile
3DTV 26 1.3.3 3D Video on Demand 27 1.3.4 3D Immersive Video-Conferencing
28 1.3.5 Remote Applications 29 1.4 Motivation 29 1.5 Overview of the Book
30 References 31 2 Capture and Processing 34 2.1 3D Scene Representation
Formats and Techniques 34 2.2 3D Video Capturing Techniques 36 2.2.1 Camera
Technologies 37 2.2.2 Stereoscopic Video Capture 39 2.2.3 Multi-View Video
Capture 45 2.2.4 Integral Imaging Capture 50 2.3 3D Video Processing 52
2.3.1 Rectification and Colour Correction 54 2.3.2 Extraction of Range
Images 56 References 59 3 Compression 61 3.1 Video Coding Principles 61 3.2
Overview of Traditional Video Coding Standards 64 3.2.1 Overview of MPEG-4
Part 10/H.264 AVC Standard 65 3.2.2 High Efficiency Video Coding (HEVC) 68
3.3 3D Video Coding 71 3.3.1 Stereoscopic Video Coding 71 3.3.2 Multi-View
Video Coding 73 3.3.3 Coding of Multi-View Plus Depth 78 3.4 Recent Trends
in 3D Video Coding 84 3.4.1 3D Video with AVC-Based Coding Technology 86
3.4.2 3D Video with HEVC-Based Coding Technology 86 References 87 4
Transmission 91 4.1 Challenges of 3D Video Transmission 91 4.2 Error
Resilience and Concealment Techniques 91 4.2.1 Background 92 4.2.2 Error
Resilience Tools 93 4.2.3 Forward Error Correction (FEC) 97 4.3 3D Video
Transmission: Example Scenarios 98 4.3.1 3D Video Broadcast over DVB-T 98
4.3.2 3D Video Streaming over IP Networks 102 4.3.3 3D Video Transmission
over Mobile Broadband 105 4.4 Conclusion 121 References 121 5 Rendering,
Adaptation and 3D Displays 123 5.1 Why Rendering? 123 5.2 3D Video
Rendering 124 5.3 3D Video Adaptation 135 5.3.1 Importance of the Depth Map
in Adaptation 135 5.3.2 Context Adaptation 136 5.3.3 3D Video Adaptation
for Mobile Terminals 136 5.3.4 Multi-View Video Adaptation 138 5.4 3D
Display Technologies 140 5.4.1 Anaglyphic Stereoscopic Displays 141 5.4.2
Passive Stereoscopic Displays 142 5.4.3 Active Stereoscopic Displays 143
5.4.4 Auto-Stereoscopic Displays 144 5.4.5 Light-Field Display 146
References 148 6 Quality Assessment 150 6.1 2D Video Quality Metrics 150
6.1.1 Peak-Signal-to-Noise-Ratio (PSNR) 151 6.1.2 Structural Similarity
Index (SSIM) 151 6.1.3 Video Quality Metric (VQM) 151 6.2 3D Video Quality
152 6.2.1 Image Quality 153 6.2.2 Visual Perception of Depth 153 6.3 3D
Video Quality Evaluation Methods 159 6.3.1 Subjective and Objective Quality
Measurements 162 6.3.2 Effects of Colour Texture Video and Depth Maps on
Perceptual Quality 167 6.4 Modelling the Perceptual Attributes of 3D Video
168 6.4.1 Modelling the Image Quality of 3D Video 169 6.4.2 Modelling the
Depth Quality of 3D Video 170 6.4.3 Compound 3D Video Quality Model 179
6.4.4 Application of the Proposed Quality Models 182 6.4.5 Context
Dependency of Visual Experience 183 6.4.6 3D-Specific Technical Properties
that Affect the Viewing Experience 184 6.5 Conclusion 185 References 186 7
Conclusions and the Future of 3DTV 188 7.1 Chapter Summary 188 7.1.1
Chapter 1: Introduction 188 7.1.2 Chapter 2: Capture and Processing 189
7.1.3 Chapter 3: Compression 189 7.1.4 Chapter 4: Transmission 190 7.1.5
Chapter 5: Rendering and 3D Displays 190 7.1.6 Chapter 6: Quality
Assessment 191 7.2 The Future of 3DTV 191 7.2.1 Understanding of Human 3D
Perception 191 7.2.2 Display Technologies 192 7.2.3 Production Approaches
and Technologies 193 7.2.4 Compression Algorithms 195 7.2.5 Looking Further
Ahead 196 Appendix A Test Video Sequences 197 A.1 2D Video Test Sequences
197 A.2 3D Test Video Sequences 198 Appendix B Introduction to the
Experiment and Questionnaire 200 B.1 Introduction to the Experiment 200 B.2
Questionnaire 203 Index 205
1.1 History of 3D Video 2 1.1.1 3D in the Nineteenth Century 3 1.1.2 Early
Twentieth-Century Developments 4 1.1.3 The 1950s 'Golden' Period 6 1.1.4
The 1980s Revival and the Arrival of IMAX 8 1.1.5 The Twenty-first-Century
Revival 12 1.1.6 Auto-Stereoscopic 13 1.1.7 3D Television Broadcasts 14 1.2
3D Video Formats 17 1.2.1 Frame Compatible and Service Compatible
Stereoscopic Video 17 1.2.2 Colour-Plus-Depth 20 1.2.3 Multi-View Video 22
1.2.4 Multi-View Plus Depth Video 23 1.2.5 Layered Depth Video 23 1.3 3D
Video Application Scenarios 25 1.3.1 3DTV Broadcast Systems 25 1.3.2 Mobile
3DTV 26 1.3.3 3D Video on Demand 27 1.3.4 3D Immersive Video-Conferencing
28 1.3.5 Remote Applications 29 1.4 Motivation 29 1.5 Overview of the Book
30 References 31 2 Capture and Processing 34 2.1 3D Scene Representation
Formats and Techniques 34 2.2 3D Video Capturing Techniques 36 2.2.1 Camera
Technologies 37 2.2.2 Stereoscopic Video Capture 39 2.2.3 Multi-View Video
Capture 45 2.2.4 Integral Imaging Capture 50 2.3 3D Video Processing 52
2.3.1 Rectification and Colour Correction 54 2.3.2 Extraction of Range
Images 56 References 59 3 Compression 61 3.1 Video Coding Principles 61 3.2
Overview of Traditional Video Coding Standards 64 3.2.1 Overview of MPEG-4
Part 10/H.264 AVC Standard 65 3.2.2 High Efficiency Video Coding (HEVC) 68
3.3 3D Video Coding 71 3.3.1 Stereoscopic Video Coding 71 3.3.2 Multi-View
Video Coding 73 3.3.3 Coding of Multi-View Plus Depth 78 3.4 Recent Trends
in 3D Video Coding 84 3.4.1 3D Video with AVC-Based Coding Technology 86
3.4.2 3D Video with HEVC-Based Coding Technology 86 References 87 4
Transmission 91 4.1 Challenges of 3D Video Transmission 91 4.2 Error
Resilience and Concealment Techniques 91 4.2.1 Background 92 4.2.2 Error
Resilience Tools 93 4.2.3 Forward Error Correction (FEC) 97 4.3 3D Video
Transmission: Example Scenarios 98 4.3.1 3D Video Broadcast over DVB-T 98
4.3.2 3D Video Streaming over IP Networks 102 4.3.3 3D Video Transmission
over Mobile Broadband 105 4.4 Conclusion 121 References 121 5 Rendering,
Adaptation and 3D Displays 123 5.1 Why Rendering? 123 5.2 3D Video
Rendering 124 5.3 3D Video Adaptation 135 5.3.1 Importance of the Depth Map
in Adaptation 135 5.3.2 Context Adaptation 136 5.3.3 3D Video Adaptation
for Mobile Terminals 136 5.3.4 Multi-View Video Adaptation 138 5.4 3D
Display Technologies 140 5.4.1 Anaglyphic Stereoscopic Displays 141 5.4.2
Passive Stereoscopic Displays 142 5.4.3 Active Stereoscopic Displays 143
5.4.4 Auto-Stereoscopic Displays 144 5.4.5 Light-Field Display 146
References 148 6 Quality Assessment 150 6.1 2D Video Quality Metrics 150
6.1.1 Peak-Signal-to-Noise-Ratio (PSNR) 151 6.1.2 Structural Similarity
Index (SSIM) 151 6.1.3 Video Quality Metric (VQM) 151 6.2 3D Video Quality
152 6.2.1 Image Quality 153 6.2.2 Visual Perception of Depth 153 6.3 3D
Video Quality Evaluation Methods 159 6.3.1 Subjective and Objective Quality
Measurements 162 6.3.2 Effects of Colour Texture Video and Depth Maps on
Perceptual Quality 167 6.4 Modelling the Perceptual Attributes of 3D Video
168 6.4.1 Modelling the Image Quality of 3D Video 169 6.4.2 Modelling the
Depth Quality of 3D Video 170 6.4.3 Compound 3D Video Quality Model 179
6.4.4 Application of the Proposed Quality Models 182 6.4.5 Context
Dependency of Visual Experience 183 6.4.6 3D-Specific Technical Properties
that Affect the Viewing Experience 184 6.5 Conclusion 185 References 186 7
Conclusions and the Future of 3DTV 188 7.1 Chapter Summary 188 7.1.1
Chapter 1: Introduction 188 7.1.2 Chapter 2: Capture and Processing 189
7.1.3 Chapter 3: Compression 189 7.1.4 Chapter 4: Transmission 190 7.1.5
Chapter 5: Rendering and 3D Displays 190 7.1.6 Chapter 6: Quality
Assessment 191 7.2 The Future of 3DTV 191 7.2.1 Understanding of Human 3D
Perception 191 7.2.2 Display Technologies 192 7.2.3 Production Approaches
and Technologies 193 7.2.4 Compression Algorithms 195 7.2.5 Looking Further
Ahead 196 Appendix A Test Video Sequences 197 A.1 2D Video Test Sequences
197 A.2 3D Test Video Sequences 198 Appendix B Introduction to the
Experiment and Questionnaire 200 B.1 Introduction to the Experiment 200 B.2
Questionnaire 203 Index 205