Color Gamut Mapping

Dr Ján Morovi , Hewlett-Packard Espanola, S. L, Avda. Grealls, Barcelona, Spain Ján Morovi is currently a Senior Color Scientist at Hewlett-Packard Espanola, Barcelona, Spain. He is highly regarded in the field of colour science, being Chair of the CIE (International Commission on Illumination) technical committee 8-03 on gamut mapping, a post he has held since 1998. Before his appointment in industry for Hewlett-Packard, Dr Morovi has also had academic experience at the University of Derby, UK. He has delivered lectures to an international audience, both academic and industrial, led industrially funded projects, and developed new commercial technologies. In addition, he has authored 62 academic publications, including book chapters, journal, and conference papers on colour gamut mapping, and also helped to create a CIE technical report detailing guidelines for the Evaluation of Mapping Algorithms.

Foreword ix

Series Preface xi

Preface xiii

1. Introduction 1

1.1 What is Color Gamut Mapping? 1

1.2 Historical Context of Gamut Mapping 5

1.3 Who is this Book for? 7

1.4 What is in the Rest of the Book? 8

2. Basics of Color Science 11

2.1 What is Color? 11

2.2 Describing Color Experiences 12

2.3 The Color Ecosystem 16

2.4 The Human Visual System 17

2.5 Physical Color-related Properties 21

2.6 Colorimetry 25

2.7 Color Ecosystem Interactions 29

2.8 Digital Color Capture and Generation 35

2.9 Color Management 39

2.10 What can Affect the Appearance of a Pair of Stimuli? 41

2.11 Summary 42

3. Desired Color Reproduction Properties and their Evaluation 45

3.1 Color Reproduction Framework 45

3.2 Desired Color Reproduction Properties 47

3.3 Evaluating Reproductions 53

3.4 Case Study: Evaluating Printed Reproductions of a Displayed Image 70

3.5 Summary 71

4. Color Reproduction Data Flows 73

4.1 Device Color Spaces 73

4.2 Conceptual Stages of Color Reproduction 76

4.3 Closed-loop Color Management 81

4.4 sRGB Color Management 83

4.5 ICC Color Management 85

4.6 Windows Color System Color Management 88

4.7 Importance of Gamut Mapping in Color Reproduction 89

4.8 Summary 90

5. Overview of Gamut Mapping 91

5.1 Definitions 91

5.2 Aims of Gamut Mapping 94

5.3 Gamut Mapping Algorithm Context 95

5.4 Types of Gamut Mapping 96

5.5 Building Blocks of Gamut Mapping Algorithms 97

5.6 Factors Affecting Gamut Mapping 105

5.7 Will Gamut Mapping become Redundant? 107

6. Color Spaces for Gamut Mapping 111

6.1 Implications of Mapping Appearance Predictors 112

6.2 Which Appearance Attributes' Predictors to Map 114

6.3 Overview of Color Appearance Spaces 115

6.4 Mapping in Nonappearance Spaces 119

6.5 Choosing a Space for Gamut Mapping 121

7. Basic Computational Geometry for Gamut Mapping 123

7.1 Spaces, Points, Lines and Planes 123

7.2 Intersections 126

7.3 Is a Point Inside or Not? 128

7.4 Normals 129

7.5 Triangulation 131

7.6 Summary 132

8. Color Gamuts and their Computation 133

8.1 Challenges and Implications of Definition 134

8.2 Gamut Boundary Descriptor Algorithms 143

8.3 Evaluating and Operating on Gamut Boundary Descriptors 155

8.4 Examples of Salient Color Gamuts 160

8.5 Image Gamuts 167

8.6 Summary 169

9. A Case Study: Minimum Color Difference Gamut Clipping 171

9.1 The Original 171

9.2 The Destination Gamut 175

9.3 Minimum Color Difference Gamut Mapping 176

9.4 The Destination Image 182

9.5 Effect of Alternatives 183

9.6 Summary 191

10. Survey of Gamut Mapping Algorithms 193

10.1 Color-by-color Reduction 194

10.2 Color-by-color Expansion 220

10.3 Spatial Gamut Reduction 224

10.4 Spectral Gamut Mapping 234

10.5 Gamut Mapping for Special Applications 237

10.6 Summary 239

11. Gamut Mapping Algorithms and Color Management Systems 241

11.1 Gamut Mapping Algorithms for Closed-loop Color Management 241

11.2 Gamut Mapping Algorithms for sRGB Color Management 242

11.3 Gamut Mapping Algorithms for ICC Color Management 242

11.4 Gamut Mapping Algorithms for WCS Color Management 244

11.5 Types of Color Management Context 245

11.6 Spatial and Spectral Gamut Mapping 246

11.7 Conclusions 246

12. Evaluating Gamut Mapping Algorithms 247

12.1 Why is there no Reference Data Set in Gamut Mapping Algorithm Evaluation? 248

12.2 Characteristics of Published Gamut Mapping Algorithm Evaluation 250

12.3 What can be Said on the Basis of Existing Evaluation Results? 252

12.4 CIE Guidelines 253

12.5 Studying Specific Properties of Gamut Mapping Algorithms 255

12.6 Summary 258

13. Conclusions 261

References 265

Index 281