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Part IV: Display
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Part IV: Display
by Marta Mrak, Rafal Mantiuk, Patrick Le Callet, Frédéric Dufaux
High Dynamic Range Video
Cover image
Title page
Table of Contents
Copyright
Contributors
Editor Biographies
Preface
Acknowledgments
Chapter 1: The Fundamental Basis of HDR: Comparametric Equations
Abstract
Acknowledgments
1.1 Introduction to High Dynamic Range Imaging
1.2 Historical Motivation for HDR Imaging
1.3 Theory of HDR Imaging
1.4 Comparametric Image Processing: Comparing Differently Exposed Images of the Same Subject Matter
1.5 Practical Implementations
1.6 Tone Mapping in HDR Systems
1.7 Analytical Solution of Comparametric Equations
1.8 Compositing as Bayesian Joint Estimation
1.9 Efficient Implementation of HDR Reconstruction via CCRF Compression
Part I: Content Acquisition and Production
Chapter 2: Unified Reconstruction of Raw HDR Video Data
Abstract
2.1 Introduction
2.2 Optical Design for HDR Video Capture
2.3 Image Formation Model
2.4 HDR Reconstruction
2.5 Example Applications
2.6 Conclusion
Chapter 3: Stack-Based Algorithms for HDR Capture and Reconstruction
Abstract
Acknowledgments
3.1 Introduction
3.2 Metering for HDR Imaging
3.3 From LDR to HDR
3.4 Handling Artifacts From Motion During HDR Reconstruction
3.5 Conclusion
Chapter 4: Multiview HDR Video Sequence Generation
Abstract
4.1 Introduction
4.2 HDR and Stereo HDR Video Acquisition
4.3 Free-Path Single Camera
4.4 Multiscopic HDR Video
4.5 Conclusions
Chapter 5: HDR, Cinematography, and Stereoscopy
Abstract
Acknowledgments
5.1 Introduction
5.2 Experiments With the HDR Technique
5.3 Postproduction
5.4 HDR: Enhanced Artistic Palette Available for Directors of Photography and Directors
Part II: Processing
Chapter 6: Video Tone Mapping
Abstract
6.1 Temporal Artifacts
6.2 Video TMOs
6.3 Temporal Artifacts Caused by Video TMOs
6.4 Recent Video TMOs
6.5 Summary
Chapter 7: Evaluation of Tone Mapping Operators for HDR Video
Abstract
7.1 Introduction
7.2 Subjective Quality Assessment Method
7.3 Survey of TMO Evaluation Studies
7.4 Evaluation Studies for Video TMOs
7.5 Video TMO Evaluation Study I
7.6 Video TMO Evaluation Study II
7.7 Summary
Chapter 8: Using Simulated Visual Illusions and Perceptual Anomalies to Convey Dynamic Range
Abstract
8.1 Introduction
8.2 Three-Dimensional Unsharp Masking
8.3 Temporal Glare
8.4 Afterimages
8.5 Conclusion
Chapter 9: Color Management in HDR Imaging
Abstract
9.1 Introduction
9.2 Background
9.3 Color Spaces for HDR and Color Workflows
9.4 Color Correction
9.5 Recovery of Clipped and Overexposed Regions
9.6 Color Appearance Modeling for HDR
9.7 Conclusions
Part III: Representation and Coding
Chapter 10: High Dynamic Range Video Compression
Abstract
10.1 Introduction
10.2 HDR Image Storage Formats and Compression
10.3 HDR Video Compression
10.4 Summary
Chapter 11: High Dynamic Range and Wide Color Gamut Video Standardization — Status and Perspectives
Abstract
11.1 Introduction
11.2 HDR and WCG Video Workflows and Related Standardization Activities
11.3 HDR and WCG in Already Existing Standards
11.4 Other Technical Solutions
11.5 Conclusion
Chapter 12: High Dynamic Range Imaging with JPEG XT
Abstract
12.1 The JPEG XT Standard
12.2 Problem Definition
12.3 The History of JPEG XT
12.4 Coding Technology
12.5 Hardware Implementation
12.6 Coding Performance
12.7 Conclusions
Part IV: Display
Chapter 13: HDR Display Characterization and Modeling
Abstract
13.1 Introduction
13.2 HDR Image Display With LED Backlight
13.3 Optimizing Local Dimming of LED Backlight for Image Display
13.4 LED-Backlit 3D Video Displays
13.5 Modeling and Evaluation of Display Quality
13.6 Concluding Remarks
Chapter 14: Dual Modulation for LED-Backlit HDR Displays
Abstract
14.1 Introduction
14.2 Dual Modulation for Backlight Dimming
14.3 Proposed Method for Dual Modulation
14.4 Assessing the Performance of a Dual Modulation Algorithm
14.5 Some Practical Lessons for HDR Content Rendering
14.6 Concluding Remarks and Perspectives
Part V: Perception and Quality of Experience
Chapter 15: Perceptual Design for High Dynamic Range Systems
Abstract
15.1 Introduction
15.2 Luminance and Contrast Perception of the HVS
15.3 Quantization and Tone Curve Reproduction
15.4 Perception of Reflectances, Diffuse White, and Highlights
15.5 Adding Color — Color Gamuts and Color Volumes
15.6 Summary
Chapter 16: Quality of Experience and HDR: Concepts and How to Measure It
Abstract
16.1 Introduction
16.2 Dimensions in HDR QoE
16.3 Measuring HDR QoE: A Few Considerations
16.4 Impact of Tone Mapping Operators on QoE Dimensions
16.5 Case Study: Quality Assessment of Dynamic Range Expansion of Video Sequences
16.6 Concluding Remarks and Perspectives
Chapter 17: HDR Image and Video Quality Prediction
Abstract
17.1 Introduction
17.2 Approaches for Assessing HDR Fidelity
17.3 From Spatial Frequency Errors to Global Quality Measure of HDR Content: Improvement of the HVS-Based Model
17.4 Adapted LDR Metrics for Measuring HDR Image Quality in the Context of Compression
17.5 Tone Mapping and Dynamic Range-Independent Metrics
17.6 Extensions to Video
17.7 Concluding Remarks
Part VI: Applications
Chapter 18: HDR Imaging in Automotive Applications
Abstract
Acknowledgments
18.1 History and Motivation for High Dynamic Range Sensors and Cameras
18.2 Requirements for Automotive Camera Sensors
18.3 HDR Implementations
18.4 HDR Video-Based Driver Assistance Applications
Chapter 19: An Application of HDR in Medical Imaging
Abstract
Acknowledgments
19.1 Introduction
19.2 Requirements of HDR Visualization in the Medical Field
19.3 Evaluation of Medical HDR Displays
19.4 The Dual-Layer Approach
19.5 Conclusions
Chapter 20: High Dynamic Range Digital Imaging of Spacecraft
Abstract
Acknowledgments
20.1 Introduction
20.2 Background
20.3 Film Baseline
20.4 HDR Imaging of Spacecraft Field Experiments
20.5 Calibrated Measurement of Imager Dynamic Range
20.6 HDR Workflow and Display Device Luminance
20.7 Conclusions
Chapter 21: The Dynamic Range of Driving Simulation
Abstract
21.1 Introduction
21.2 No Need for HDR Video in Driving Simulations?
21.3 Visual Factors Which Impact Driving Behavior
21.4 HDR Rendering
21.5 Photometric Control of CG Images in Driving Simulations
21.6 Conclusion
Chapter 22: HDR Image Watermarking
Abstract
22.1 A Brief Introduction to Digital Watermarking
22.2 Digital Watermarking for HDR Images
22.3 Concluding Remarks
Index
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Chapter 12: High Dynamic Range Imaging with JPEG XT
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Chapter 13: HDR Display Characterization and Modeling
Part IV
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