Colour engineering: achieving device independent colour
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2002
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| Schriftenreihe: | Wiley-SID series in display technology
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 458 S. Ill., graph. Darst. |
| ISBN: | 0471486884 |
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MARC
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| 245 | 1 | 0 | |a Colour engineering |b achieving device independent colour |c ed. by Phil Green ... |
| 264 | 1 | |a Chichester |b Wiley |c 2002 | |
| 300 | |a XIX, 458 S. |b Ill., graph. Darst. | ||
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| 490 | 0 | |a Wiley-SID series in display technology | |
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| 650 | 4 | |a Colorimetry | |
| 650 | 4 | |a Farbbildverarbeitung | |
| 650 | 4 | |a Image processing - Digital techniques | |
| 650 | 4 | |a Color computer graphics | |
| 700 | 1 | |a Green, Philip |e Sonstige |4 oth | |
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Datensatz im Suchindex
| _version_ | 1804129050207191040 |
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| adam_text | COLOUR ENGINEERING ACHIEVING DEVICE INDEPENDENT COLOUR EDITED BY PHIL
GREEN COLOUR IMAGING GROUP, LONDON COLLEGE OF PRINTING, UK AND LINDSAY
MACDONALD COLOUR & IMAGING INSTITUTE, UNIVERSITY OF DERBY, UK JOHN WILEY
& SONS, LTD CONTENTS COLOUR PLATE CAPTIONS XV CONTRIBUTORS XVII SERIES
PREFACE XXI PREFACE XXIII 1 LIGHT AND COLOUR 1 ARTHUR TARRANT 1.1
LUMINOUS FLUX 1 1.2 ILLUMINANCE 4 1.3 LUMINOUS INTENSITY 6 1.4 LUMINANCE
7 1.5 UNITS 8 1.5.1 OBSOLETE UNITS 8 1.5.2 RADIOMETRIC UNITS 8 1.6
TRANSMISSION MEASUREMENTS 9 1.6.1 DIRECT TRANSMISSION 9 1.6.2 DIFFUSE
TRANSMISSION 10 1.6.3 TRANSMITTANCE 10 1.6.4 OPTICAL DENSITY AND
ABSORBANCE 11 1.6.5 THE BEER-LAMBERT LAW 11 1.7 REFLECTION MEASUREMENTS
12 1.7.1 SPECULAR AND DIFFUSE REFLECTION 12 1.7.2 SURFACE TEXTURE 13
1.7.3 REFLECTANCE 13 1.8 COLOUR RENDERING AND METAMERISM 14 1.8.1 COLOUR
RENDERING 14 1.8.2 METAMERISM 16 REFERENCES 17 2 INSTRUMENTS AND METHODS
FOR COLOUR MEASUREMENT 19 DANNY RICH 2.1 INTRODUCTION 19 2.1.1 THE NEED
FOR COLORIMETRY 19 CONTENTS 2.1.2 THE PRINCIPLES OF COLORIMETRY 20 2.1.3
MAKING THE TRANSITION FROM WHAT WE SEE TO QUANTIFYING HOW WE MATCH A
COLOUR 20 2.2 VISUAL COLORIMETRY 21 2.2.1 A METHOD TO UNIQUELY MAP THE
COLOUR OF LIGHTS AND OBJECTS 21 2.2.2 DEVELOPMENT OF THE CIE METHOD OF
VISUAL COLORIMETRY 22 2.2.3 APPLICATIONS OF VISUAL COLORIMETRY 25 2.2.4
DISADVANTAGES OF VISUAL COLORIMETRY 27 2.3 ANALOGUE SIMULATION OF VISUAL
COLORIMETRY 27 2.3.1 REPLACING THE HUMAN EYE WITH AN OPTOELECTRONIC
SENSOR 27 2.3.2 SUBSTITUTING COLOURED FILTERS TO APPROXIMATE THE CIE
COLOUR-MATCHING FUNCTIONS 27 2.3.3 ASSESSING THE GOODNESS OF FIT OF A
SET OF COLORIMETER FILTERS 30 2.3.4 SCHEMATIC DESCRIPTION OF ANALOGUE
FILTER COLORIMETERS 30 2.3.5 DISADVANTAGES OF ANALOGUE FILTER
COLORIMETERS 31 2.4 DIGITAL SIMULATION OF VISUAL COLORIMETRY 32 2.4.1
REPLACING THE ANALOGUE FILTERS WITH AN ABRIDGED SPECTROMETER 32 2.4.2
ASSESSING THE GOODNESS OF FIT OF ABRIDGED SPECTROMETERS 33 2.4.3
SCHEMATIC DESCRIPTION OF DIGITAL SPECTROCOLORIMETERS 34 2.4.4 ADVANTAGES
AND DISADVANTAGES OF DIGITAL SPECTROCOLORIMETERS 34 2.5 SELECTING AND
USING COLORIMETERS AND SPECTROCOLORIMETERS 35 2.5.1 READING AND
UNDERSTANDING SPECIFICATIONS AND TECHNICAL LITERATURE 35 2.5.2 VERIFYING
PERFORMANCE SPECIFICATIONS 38 2.5.3 STANDARDS OF COLOUR AND
COLOUR-DIFFERENCE 38 2.5.4 SOURCES OF ERROR AND UNCERTAINTY IN THE
MEASUREMENT OF REFLECTANCE, TRANSMITTANCE AND RADIANCE 39 2.6 GEOMETRIC
REQUIREMENTS FOR COLOUR MEASUREMENTS 40 2.6.1 COLOUR MEASUREMENTS FROM
SELF-LUMINOUS OBJECTS 40 2.6.2 COLOUR MEASUREMENTS FROM REFLECTING OR
TRANSMITTING OBJECTS 41 2.7 CONCLUSIONS AND EXPECTATIONS 45 2.7.1
CURRENT CIE ACTIVITIES IN COLOUR AND COLOUR-DIFFERENCE MEASUREMENTS 45
2.7.2 QUALITY MANAGEMENT SYSTEMS AND COLOUR MEASUREMENTS 45 REFERENCES
46 3 COLORIMETRY AND COLOUR DIFFERENCE 49 PHIL GREEN 3.1 INTRODUCTION 49
3.2 COLORIMETRY 49 3.2.1 CALCULATION OF CHROMATICITY 52 3.2.2
CALCULATION OF CIE 1976 L* A* B* 53 3.2.3 INVERSION OF COLORIMETRIC
TRANSFORMS 55 3.2.4 IMPLEMENTATION ISSUES 56 CONTENTS VLI 3.3 COLOUR
DIFFERENCE 56 3.3.1 PROBLEMS WITH USING UCS COLOUR DIFFERENCE 58 3.3.2
ACCEPTABILITY OF COLOUR DIFFERENCES 59 3.4 OVERCOMING THE LIMITATIONS OF
UCS COLOUR DIFFERENCE WITH ADVANCED COLOUR DIFFERENCE METRICS 60 3.4.1
CMC 60 3.4.2 BFD 61 3.4.3 CIE94 63 3.4.4 CIEDE2000 65 3.5 ADVANCED
COLOUR DIFFERENCE METRICS IN COLOUR IMAGING 67 3.5.1 BASIS CONDITIONS 67
3.5.2 COLOUR DIFFERENCE IN COMPLEX IMAGES 68 3.5.3 ACCEPTABILITY AND
PERCEPTIBILITY 69 3.5.4 LARGE VS. SMALL DIFFERENCES 70 3.6 DERIVING
COLOUR DIFFERENCE TOLERANCES 70 3.6.1 SAMPLE PREPARATION 71 3.6.2
PSYCHOPHYSICAL EXPERIMENTS 71 3.6.3 OBSERVER VARIABILITY AND EXPERIENCE
71 3.6.4 CALCULATING COLOUR TOLERANCES FROM EXPERIMENTAL DATA 72 3.6.5
CALCULATION OF DISCRIMINATION ELLIPSOIDS AND TOLERANCE DISTRIBUTIONS 72
3.6.6 CALCULATION OF PARAMETRIC CONSTANTS IN WEIGHTINGS FUNCTIONS 73
3.6.7 CALCULATION OF ACCEPTABILITY THRESHOLDS 74 3.7 CONCLUSION 74
REFERENCES 75 4 THE CIE 1997 COLOUR APPEARANCE MODEL: CIECAM97S 79 M.
RONNIER LUO 4.1 INTRODUCTION 79 4.2 CIE 1997 COLOUR APPEARANCE MODEL:
CIECAM97S 81 4.2.1 STRUCTURE OF THE MODEL 81 4.2.2 COLOUR ATTRIBUTES 83
4.2.3 COLOUR APPEARANCE PHENOMENA PREDICTED BY THE MODEL 84 4.3 TESTING
COLOUR APPEARANCE MODELS USING COLOUR APPEARANCE DATA SETS 89 4.3.1
COLOUR APPEARANCE DATA SETS 89 4.3.2 PSYCHOPHYSICAL METHODS 89 4.3.3
TESTING COLOUR APPEARANCE MODELS PERFORMANCE 91 4.4 RECENT
MODIFICATIONS TO CIECAM97S 95 4.5 CONCLUSION 95 REFERENCES 95 APPENDIX
1. COMPUTATION PROCEDURES FOR CIECAM97S 97 FORWARD CIECAM97S COLOUR
APPEARANCE MODEL 97 VIH CONTENTS REVERSE CIECAM97S COLOUR APPEARANCE
MODEL 101 WORKED EXAMPLES FOR THE CIECAM97S COLOUR APPEARANCE MODEL 103
5 COLOUR NOTATION SYSTEMS 105 PETER A. RHODES 105 106 106 107 108 108
110 111 112 114 115 117 118 120 120 122 124 125 6 OVERVIEW OF
CHARACTERIZATION METHODS 127 PHIL GREEN 6.1 INTRODUCTION 127 6.2
NUMERICAL MODELS 129 6.2.1 REGRESSION METHODS USED IN CHARACTERIZATION
130 6.2.2 DOMAIN 132 6.2.3 TRAINING SETS 133 6.3 LOOK-UP TABLES WITH
INTERPOLATION 134 6.3.1 INTERPOLATION 135 6.3.2 LUT IMPLEMENTATION 138
6.4 EVALUATING MODEL ACCURACY 138 REFERENCES 140 7 METHODS FOR
CHARACTERIZING DISPLAYS 143 ROY BERNS AND NAOYA KATOH 7.1 INTRODUCTION
143 7.2 GOG MODEL FOR CRT DISPLAYS 143 5.1 5.2 5.3 5.4 5.5 INTRODUCTION
COLOUR COLOUR 5.3.1 5.3.2 5.3.3 5.3.4 5.3.5 5.3.6 5.3.7 5.3.8 5.3.9
5.3.10 5.3.11 FIDELITY NOTATION SYSTEMS INTRODUCTION AND DEFINITIONS
DEFINING COLOUR NOTATION SYSTEMS DEVICE-DEPENDENT SPECIFICATION SYSTEMS
CIELAB AND CIELUV TEKHVC MUNSELL THE DIN COLOUR SYSTEM NATURAL COLOUR
SYSTEM THE OSA-UCS COLOUR SYSTEM COLOUR NAMING SYSTEMS OTHER COLOUR
NOTATION SYSTEMS INTERRELATING MULTIPLE NOTATION SYSTEMS 5.4.1
IMPLEMENTING COMPUTER-BASED SYSTEMS SUMMARY REFERENCES CONTENTS IX 7.3
THE EXTENDED GOGO MODEL 145 7.4 CALIBRATION, CHARACTERISATION, AND GAMMA
151 7.4.1 DETERMINING THE COLORIMETRY OF EACH CHANNEL 153 7.4.2
DETERMINING THE OETF OF EACH CHANNEL 155 7.5 NUMERICAL EXAMPLE OF A
COLORIMETRIC CHARACTERIZATION 157 7.5.1 CHARACTERIZATION SUMMARY 162 7.6
CONCLUSIONS 163 REFERENCES 163 8 METHODS FOR CHARACTERIZING COLOUR
SCANNERS AND DIGITAL CAMERAS 165 TONY JOHNSON 8.1 INTRODUCTION 165 8.1.1
COLOUR MANAGEMENT OF DEVICE-DEPENDENT AND DEVICE-INDEPENDENT SYSTEMS 166
8.1.2 PRINCIPLES OF SCANNER CHARACTERIZATION 168 8.2 USE OF THE ANSI/ISO
SCANNER CHARACTERIZATION TARGET 169 8.3 USE OF THE TARGET IN SCANNER
CHARACTERIZATION 170 8.3.1 EVALUATION OF COLOUR DIGITIZERS 171 8.3.2
EVALUATION OF GAMUT COMPRESSED COLOUR DIGITIZER 172 8.3.3
SIGNAL-TO-NOISE RATIO 173 8.3.4 SCANNER REPEATABILITY 173 8.4
CHARACTERIZATION PROCEDURES 174 8.4.1 ANALYTICAL SOLUTION TO FIRST-ORDER
EQUATIONS 174 8.4.2 LEAST-SQUARES FITTING TO A FIRST-ORDER MODEL 175
8.4.3 LEAST-SQUARES FITTING TO A HIGHER-ORDER MODEL 175 8.4.4 NON-LINEAR
TRANSFORMATION 176 8.4.5 DYE MODELLING ALGORITHMS 176 8.4.6 LOOK-UP
TABLE WITH INTERPOLATION 177 8.5 SUMMARY 177 REFERENCES 178 9 COLOR
PROCESSING FOR DIGITAL PHOTOGRAPHY 179 JACK HOLM, INGEBORG TASTL, LARRY
HANLON AND PAUL HUBEL 9.1 INTRODUCTION 179 9.2 BACKGROUND 180 9.2.1
COLOR PROCESSING APPROACHES: UNCALIBRATED VERSUS CALIBRATED IMAGE DATA
181 9.2.2 DEALING WITH CALIBRATED AND UNCALIBRATED IMAGE DATA IN A
COMMON ARCHITECTURE 182 9.2.3 THE MEANING OF DEVICE-INDEPENDENT COLOR AS
APPLIED TO DIGITAL PHOTOGRAPHY 183 CONTENTS 9.3 OPEN SYSTEMS
ARCHITECTURE AND WORKFLOW OPTIONS 185 9.3.1 DIGITAL CAMERA IMAGE
PROCESSING STEPS RELATED TO THE THREE DIFFERENT WORKFLOW OPTIONS 186
9.3.2 DEVICE-INDEPENDENT COLOR VIA EXCHANGE OF STANDARD OUTPUT-REFERRED
IMAGE DATA AND APPLICATION OF COLOR RENDERING 187 9.3.3
DEVICE-INDEPENDENT COLOR VIA DEFERRED PROCESSING 193 9.4 DIGITAL CAMERA
IMAGE PROCESSING CHOICES: COMPONENT SELECTION, CHARACTERIZATION METHODS,
AND PROCESSING ALGORITHMS 194 9.4.1 CAPTURE OF RAW IMAGE DATA 194 9.4.2
LINEARIZATION TO FOCAL PLANE IRRADIANCE 195 9.4.3 FLARE REMOVAL 196
9.4.4 ADOPTED WHITE SELECTION 196 9.4.5 WHITE BALANCING 200 9.4.6
DEMOSAICING 201 9.4.7 DETERMINATION OF TRANSFORMATIONS TO SCENE-REFERRED
COLORIMETRY ESTIMATES 204 9.4.8 COLOR RENDERING TO STANDARD
OUTPUT-REFERRED REPRESENTATIONS 211 9.4.9 ENCODING, COMPRESSION, AND
FILE FORMATS FOR EXCHANGE 212 9.4.10 COLOR RENDERING FOR OUTPUT 213
REFERENCES 213 APPENDIX 1: TERMINOLOGY 217 10 CHARACTERIZING HARD COPY
PRINTERS 221 PHIL GREEN 10.1 INTRODUCTION 221 10.1.1 HALFTONING 222 10.2
PRINTER MODELS 224 10.2.1 BLOCK DYE MODEL 224 10.3 PHYSICAL MODELS 226
10.3.1 DENSITY 227 10.3.2 DOT AREA MODELS 227 10.3.3 COLORANT MODELS 232
10.4 NUMERICAL MODELS AND LOOK-UP TABLES 236 10.5 BLACK PRINTER 236
10.5.1 SPECTRAL GREY-COMPONENT REPLACEMENT 237 10.6 BLACK GENERATION
ALGORITHM 238 10.7 THE REVERSE MODEL 242 10.8 RGB PRINTERS 242
REFERENCES 243 11 COLOR MANAGEMENT AND TRANSFORMATION THROUGH ICC
PROFILES 247 DAWN WALLNER 11.1 THE NEED FOR COLOR MANAGEMENT 247 11.2
THE PCS 249 11.3 THE ICC PROFILE 250 CONTENTS XI 11.3.1 ICC PROFILE
TYPES 251 11.3.2 USE OF ICC PROFILES 252 11.4 THE ICC PROFILE STRUCTURE
253 11.4.1 ICC PROFILE CREATION 254 11.4.2 ICC DEVICE MODELS 255 11.4.3
ICC RENDERING INTENTS 257 11.4.4 REQUIRED PROCESSING TAGS 257 11.4.5
PRIVATE TAGS 258 11.5 PROFILE USE 258 11.5.1 COLOR MANAGEMENT ON THE WEB
AND ICC PROFILES 258 11.5.2 SAMPLE ICC PROFILE INTERFACES 259 11.5.3 ICC
PROFILE VALIDATION SOFTWARE 261 11.5.4 WHAT TO LOOK FOR IN THE FUTURE AT
THE ICC WEBSITE 261 11.6 CONCLUSION 261 REFERENCES I 261 12 COLOUR GAMUT
DETERMINATION 263 MARC MAHY 12.1 INTRODUCTION 263 12.2 OVERVIEW OF GAMUT
CALCULATIONS 264 12.3 TERMINOLOGY 265 12.4 A GENERAL PRINTER MODEL 266
12.4.1 THE NEUGEBAUER MODEL 266 12.4.2 A LOCALISED NEUGEBAUER MODEL 268
12.5 GAMUT CALCULATIONS 269 12.5.1 INTRODUCTION 269 12.5.2 BOUNDARIES OF
A 3-INK PROCESS 269 12.5.3 BOUNDARIES OF A 4-INK PROCESS 275 12.5.4
ANALYTICAL GAMUT CALCULATION: WELL-BEHAVED NEUGEBAUER MODEL WITHOUT INK
LIMITATIONS 277 12.5.5 GAMUT OF A WELL-BEHAVED LOCALISED NEUGEBAUER
MODEL 279 12.5.6 GAMUT OF A LESS WELL-BEHAVED MODEL 280 12.6 GAMUT
REPRESENTATIONS 280 12.7 CONCLUSIONS 282 REFERENCES 283 APPENDIX 1.
NEUGEBAUER EQUATIONS 285 NEUGEBAUER EQUATIONS FOR A 1-INK PROCESS 285
NEUGEBAUER EQUATIONS FOR A 2-INK PROCESS 285 APPENDIX 2. ANALYTICAL
GAMUT CALCULATION: WEIL-BEHAVED NEUGEBAUER MODEL WITH LINEAR INK
LIMITATION 286 13 COLOUR GAMUT MAPPING 297 JAN MOROVIC 13.1 INTRODUCTION
297 13.1.1 GAMUT MAPPING AIMS 299 XII CONTENTS 13.2 TERMINOLOGY 299 13.3
FACTORS AFFECTING GAMUT MAPPING 300 13.3.1 COLOUR REPRODUCTION SYSTEM
301 13.3.2 GAMUT BOUNDARY CALCULATION 302 13.3.3 COLOUR SPACE 303 13.3.4
MEDIA 303 13.3.5 IMAGES 304 13.4 PARAMETERS OF GAMUT MAPPING 306 13.4.1
TYPE OF MAPPING 306 13.4.2 CHOICE OF ORIGINAL GAMUT 306 13.5 GAMUT
MAPPING AND COLOUR RENDERING INTENTS 307 13.5.1 COLOUR RENDERING INTENTS
307 13.5.2 RELATIONSHIP BETWEEN GAMUT MAPPING AND RENDERING INTENTS 308
13.6 OVERVIEW OF GAMUT MAPPING ALGORITHMS 309 13.7 GAMUT MAPPING
ALGORITHMS AND COLOUR MANAGEMENT FRAMEWORKS 311 13.7.1 RECOMMENDED GAMUT
CLIPPING ALGORITHM 311 13.7.2 RECOMMENDED GAMUT COMPRESSION ALGORITHM
312 13.8 SUMMARY 314 13.9 ACKNOWLEDGEMENTS 314 REFERENCES 314 14
IMPLEMENTATION OF DEVICE-INDEPENDENT COLOR AT KODAK 319 KEVIN SPAULDING
AND EDWARD GIORGIANNI 14.1 INTRODUCTION 319 14.2 IMAGE STATES 320 14.3
STANDARD IMAGE STATE COLOR ENCODINGS 323 14.3.1 CRITERIA FOR SELECTION
OF R1MM/ROMM RGB COLOR ENCODINGS 325 14.3.2 ROMM RGB COLOR ENCODING 328
14.3.3 ROMM RGB CONVERSION MATRIX 331 14.3.4 NONLINEAR ENCODING OF ROMM
RGB 331 14.3.5 R1MMRGB COLOR ENCODING 331 14.3.6 RIMM RGB CONVERSION
MATRIX 332 14.3.7 NONLINEAR ENCODING OF RIMM RGB 333 14.3.8 ERIMM RGB
COLOR ENCODING 333 14.3.9 NONLINEAR ENCODING OF ERIMM RGB 334 14.4 IMAGE
STATES IN A COLOR-MANAGED ARCHITECTURE 335 14.5 IMPLEMENTATION WITH JPEG
2000 338 REFERENCES 339 15 ENGINEERING COLOR AT ADOBE 341 JAMES KING
15.1 INTRODUCTION 341 15.2 THE EARLY BLACK AND WHITE POSTSCRIPT DAYS
341 CONTENTS XIII 15.3 A LITTLE BIT ABOUT POSTSCRIPT 343 15.4 POSTSCRIPT
PROCEDURES 345 15.5 TYPICAL WORKFLOW FOR MAKING BLACK AND WHITE FILM 346
15.6 POSTSCRIPT LEVEL 2 348 15.7 HANDLING BLACK IN CMYK WORKFLOWS 355
15.8 DESTINATION PROFILES IN POSTSCRIPT 357 15.9 DIFFERENCES BETWEEN ICC
PROCESSING AND POSTSCRIPT PROCESSING 361 15.10 THE TAIL WAGGING THE
DOG 362 15.11 THE FORMATION OF THE INTERNATIONAL COLOR CONSORTIUM 363
15.12 PORTABLE DOCUMENT FORMAT (PDF) 365 15.13 COLOR MANAGEMENT IN OTHER
ADOBE PRODUCTS 366 15.14 WHEN THINGS GO WRONG 367 15.15 THE FUTURE 368
15.16 ACKNOWLEDGEMENTS 369 REFERENCES 369 16 COLOUR MANAGEMENT IN
DIGITAL FILM POST-PRODUCTION 371 WOLFGANG LEMPP AND LEONARDO NORIEGA
16.1 INTRODUCTION 371 16.2 TRADITIONAL FILM POST-PRODUCTION 372 16.2.1
THE FILM PROCESS CHAIN 372 16.2.2 THE TOOLS OF THE CINEMATOGRAPHER 373
16.3 DIGITAL VISUAL EFFECTS 374 16.3.1 DIGITISING THE NEGATIVE 374
16.3.2 SCANNER ENCODING SCHEME 375 16.3.3 MATCHING THE ORIGINAL NEGATIVE
376 16.3.4 COLOUR MANAGEMENT: A POTENTIAL SOLUTION 376 16.4 THE DIGITAL
STUDIO 378 16.4.1 TELECINE PROCESSING 378 16.4.2 THE CINEMATIC
EXPERIENCE 379 16.4.3 COLOUR APPEARANCE MODELS 380 16.4.4 GAMUT MAPPING
381 16.5 DIGITAL CINEMA 382 16.5.1 A STANDARD FOR DIGITAL CINEMA
DISTRIBUTION 383 16.5.2 AN ARCHITECTURE FOR FILM COLOUR MANAGEMENT 383
16.6 CONCLUSION 383 REFERENCES 384 17 MANAGING COLOR IN DIGITAL IMAGE
LIBRARIES 385 SABINE SUSSTRUNK 17.1 IMAGE REPRESENTATIONS IN DIGITAL
IMAGE LIBRARIES 385 17.2 DIGITAL IMAGE COLOR WORKFLOW 387 17.2.1 SENSOR
ENCODING 390 17.2.2 INPUT-REFERRED IMAGE ENCODING 392 XIV CONTENTS
17.2.3 OUTPUT-REFERRED IMAGE ENCODING 395 17.2.4 OUTPUT DEVICE SPECIFIC
ENCODING 397 17.3 THE USE OF ICC COLOR MANAGEMENT IN IMAGE LIBRARIES 399
17.3.1 ICC PROFILES AND MASTER FILES 400 17.3.2 ICC PROFILES AND
DERIVATIVE FILES 400 17.4 COLOR SPACES AND COLOR ENCODINGS 401 17.4.1
COLOR SPACE AND COLOR ENCODING CHARACTERISTICS 401 17.5 COMPRESSION AND
FILE FORMATS 412 17.5.1 COMPRESSION 412 17.5.2 FILE FORMATS 413 17.6
OTHER ISSUES IN BUILDING AND MAINTAINING A DIGITAL IMAGE LIBRARY 415
17.6.1 STORAGE 415 17.6.2 TEXT METADATA 415 17.6.3 CONTENT-BASED IMAGE
RETRIEVAL (CBIR) 416 17.6.4 DATABASE ARCHITECTURE 416 17.7 SUMMARY - 416
REFERENCES 417 18 STANDARDS ACTIVITIES FOR COLOUR IMAGING 421 DAVID Q.
MCDOWELL 18.1 INTRODUCTION 421 18.2 THE INITIAL GRAPHIC ARTS COLOUR
STANDARDS 422 18.2.1 SCANNER TARGETS 422 18.2.2 CMYK OUTPUT DATA SET 425
18.2.3 COLOUR MEASUREMENT AND COMPUTATION 427 18.3 VIEWING STANDARDS 428
18.3.1 HARDCOPY VIEWING 428 18.3.2 SOFTCOPY VIEWING 429 18.4
DENSITOMETRY AND RELATED METROLOGY STANDARDS 430 18.4.1 RELATED
METROLOGY STANDARDS 430 18.4.2 ISO 5 432 18.5 OUTPUT CHARACTERIZATION
433 18.5.1 PRINTING PROCESS DEFINITION 433 18.5.2 REFERENCE PRINTING
CONDITIONS 433 18.6 TEST IMAGES 435 18.7 OTHER RELATED STANDARDS WORK
436 18.8 WHERE ARE WE GOING? 436 18.9 MORE INFORMATION 437 REFERENCES
437 APPENDIX 1. PARTIAL LISTING OF COLOUR IMAGING STANDARDS 438 APPENDIX
2. BIBLIOGRAPHY 441 AUTHOR BIOGRAPHIES 443 INDEX 449
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| discipline | Physik Informatik |
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| id | DE-604.BV014170979 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T18:58:58Z |
| institution | BVB |
| isbn | 0471486884 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-009714604 |
| oclc_num | 248202377 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | XIX, 458 S. Ill., graph. Darst. |
| publishDate | 2002 |
| publishDateSearch | 2002 |
| publishDateSort | 2002 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley-SID series in display technology |
| spelling | Colour engineering achieving device independent colour ed. by Phil Green ... Chichester Wiley 2002 XIX, 458 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley-SID series in display technology Color computer graphics Colorimetry Farbbildverarbeitung Image processing - Digital techniques Green, Philip Sonstige oth HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009714604&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Colour engineering achieving device independent colour Color computer graphics Colorimetry Farbbildverarbeitung Image processing - Digital techniques |
| title | Colour engineering achieving device independent colour |
| title_auth | Colour engineering achieving device independent colour |
| title_exact_search | Colour engineering achieving device independent colour |
| title_full | Colour engineering achieving device independent colour ed. by Phil Green ... |
| title_fullStr | Colour engineering achieving device independent colour ed. by Phil Green ... |
| title_full_unstemmed | Colour engineering achieving device independent colour ed. by Phil Green ... |
| title_short | Colour engineering |
| title_sort | colour engineering achieving device independent colour |
| title_sub | achieving device independent colour |
| topic | Color computer graphics Colorimetry Farbbildverarbeitung Image processing - Digital techniques |
| topic_facet | Color computer graphics Colorimetry Farbbildverarbeitung Image processing - Digital techniques |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009714604&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT greenphilip colourengineeringachievingdeviceindependentcolour |