Digital image processing:
Completely self-contained-and heavily illustrated-this introduction to basic concepts and methodologies for digital image processing is written at a level that truly is suitable for seniors and first-year graduate students in almost any technical discipline. The leading textbook in its field for mor...
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Upper Saddle River, NJ
Prentice Hall
2008
|
| Ausgabe: | 3. ed., internat. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | Completely self-contained-and heavily illustrated-this introduction to basic concepts and methodologies for digital image processing is written at a level that truly is suitable for seniors and first-year graduate students in almost any technical discipline. The leading textbook in its field for more than twenty years, it continues its cutting-edge focus on contemporary developments in all mainstream areas of image processing-e.g., image fundamentals, image enhancement in the spatial and frequency domains, restoration, color image processing, wavelets, image compression, morphology, segmentation, image description, and the fundamentals of object recognition. It focuses on material that is fundamental and has a broad scope of application. |
| Beschreibung: | XXII, 954 S. Ill., graph. Darst. |
| ISBN: | 013505267X 9780131687288 9780135052679 |
Internformat
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| 100 | 1 | |a Gonzalez, Rafael C. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Digital image processing |c Rafael C. Gonzalez ; Richard E. Woods |
| 250 | |a 3. ed., internat. ed. | ||
| 264 | 1 | |a Upper Saddle River, NJ |b Prentice Hall |c 2008 | |
| 300 | |a XXII, 954 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 520 | 3 | |a Completely self-contained-and heavily illustrated-this introduction to basic concepts and methodologies for digital image processing is written at a level that truly is suitable for seniors and first-year graduate students in almost any technical discipline. The leading textbook in its field for more than twenty years, it continues its cutting-edge focus on contemporary developments in all mainstream areas of image processing-e.g., image fundamentals, image enhancement in the spatial and frequency domains, restoration, color image processing, wavelets, image compression, morphology, segmentation, image description, and the fundamentals of object recognition. It focuses on material that is fundamental and has a broad scope of application. | |
| 650 | 7 | |a Beeldverwerking |2 gtt | |
| 650 | 7 | |a Computers |2 gtt | |
| 650 | 7 | |a Digitale technieken |2 gtt | |
| 650 | 4 | |a Traitement d'images - Techniques numériques | |
| 650 | 4 | |a Image processing |x Digital techniques | |
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| _version_ | 1814306200834015232 |
| adam_text |
DIGITAL IMAGE PROCESSING THIRD EDITION RAFAEL C. GONZALEZ UNIVERSITY OF
TENNESSEE RICHARD E. WOODS MEDDATA INTERACTIVE PEARSON PRENTICE HALL
PEARSON EDUCATION INTERNATIONAL CONTENTS PREFACE XV ACKNOWLEDGMENTS THE
BOOK WEB SITE XX ABOUT THE AUTHORS XXI I INTRODUCTION 1 1.1 WHAT IS
DIGITAL IMAGE PROCESSING? 1 1.2 THE ORIGINS OF DIGITAL IMAGE PROCESSING
3 1.3 EXAMPLES OF FIELDS THAT USE DIGITAL IMAGE PROCESSING 7 1.3.1
GAMMA-RAY IMAGING 8 1.3.2 X-RAY IMAGING 9 1.3.3 IMAGING IN THE
ULTRAVIOLET BAND 11 1.3.4 IMAGING IN THE VISIBLE AND INFRARED BANDS 12
1.3.5 IMAGING IN THE MICROWAVE BAND 18 1.3.6 IMAGING IN THE RADIO BAND
20 1.3.7 EXAMPLES IN WHICH OTHER IMAGING MODALITIES ARE USED 1.4
FUNDAMENTAL STEPS IN DIGITAL IMAGE PROCESSING 25 1.5 COMPONENTS OF AN
IMAGE PROCESSING SYSTEM 28 SUMMARY 31 REFERENCES AND FURTHER READING 31
L DIGITAL IMAGE FUNDAMENTALS 35 2.1 ELEMENTS OF VISUAL PERCEPTION 36
2.1.1 STRUCTURE OF THE HUMAN EYE 36 2.1.2 IMAGE FORMATION IN THE EYE 38
2.1.3 BRIGHTNESS ADAPTATION AND DISCRIMINATION 39 2.2 LIGHT AND THE
ELECTROMAGNETIC SPECTRUM 43 2.3 IMAGE SENSING AND ACQUISITION 46 2.3.1
IMAGE ACQUISITION USING A SINGLE SENSOR 48 2.3.2 IMAGE ACQUISITION USING
SENSOR STRIPS 48 2.3.3 IMAGE ACQUISITION USING SENSOR ARRAYS 50 2.3.4 A
SIMPLE IMAGE FORMATION MODEL 50 2.4 IMAGE SAMPLING AND QUANTIZATION 52
2.4.1 BASIC CONCEPTS IN SAMPLING AND QUANTIZATION 52 2.4.2 REPRESENTING
DIGITAL IMAGES 55 2.4.3 SPATIAL AND INTENSITY RESOLUTION 59 2.4.4 IMAGE
INTERPOLATION 65 VI * CONTENTS 2.5 SOME BASIC RELATIONSHIPS BETWEEN
PIXELS 68 2.5.1 NEIGHBORS OF A PIXEL 68 2.5.2 ADJACENCY, CONNECTIVITY,
REGIONS, AND BOUNDARIES 68 2.5.3 DISTANCE MEASURES 71 2.6 AN
INTRODUCTION TO THE MATHEMATICAL TOOLS USED IN DIGITAL IMAGE PROCESSING
72 2.6.1 ARRAY VERSUS MATRIX OPERATIONS 72 2.6.2 LINEAR VERSUS NONLINEAR
OPERATIONS 73 2.6.3 ARITHMETIC OPERATIONS 74 2.6.4 SET AND LOGICAL
OPERATIONS 80 2.6.5 SPATIAL OPERATIONS 85 2.6.6 VECTOR AND MATRIX
OPERATIONS 92 2.6.7 IMAGE TRANSFORMS 93 2.6.8 PROBABILISTIC METHODS 96
SUMMARY 98 REFERENCES AND FURTHER READING 98 PROBLEMS 99 J INTENSITY
TRANSFORMATIONS AND SPATIAL FILTERING 104 3.1 BACKGROUND 105 3.1.1 THE
BASICS OF INTENSITY TRANSFORMATIONS AND SPATIAL FILTERING 105 3.1.2
ABOUT THE EXAMPLES IN THIS CHAPTER 107 3.2 SOME BASIC INTENSITY
TRANSFORMATION FUNCTIONS 107 3.2.1 IMAGE NEGATIVES 108 3.2.2 LOG
TRANSFORMATIONS 109 3.2.3 POWER-LAW (GAMMA) TRANSFORMATIONS 110 3.2.4
PIECEWISE-LINEAR TRANSFORMATION FUNCTIONS 115 3.3 HISTOGRAM PROCESSING
120 3.3.1 HISTOGRAM EQUALIZATION 122 3.3.2 HISTOGRAM MATCHING
(SPECIFICATION) 128 3.3.3 LOCAL HISTOGRAM PROCESSING 139 3.3.4 USING
HISTOGRAM STATISTICS FOR IMAGE ENHANCEMENT 139 3.4 FUNDAMENTALS OF
SPATIAL FILTERING 144 3.4.1 THE MECHANICS OF SPATIAL FILTERING 145 3.4.2
SPATIAL CORRELATION AND CONVOLUTION 146 3.4.3 VECTOR REPRESENTATION OF
LINEAR FILTERING 150 3.4.4 GENERATING SPATIAL FILTER MASKS 151 3.5
SMOOTHING SPATIAL FILTERS 152 3.5.1 SMOOTHING LINEAR FILTERS 152 3.5.2
ORDER-STATISTIC (NONLINEAR) FILTERS 156 3.6 SHARPENING SPATIAL FILTERS
157 3.6.1 FOUNDATION 158 3.6.2 USING THE SECOND DERIVATIVE FOR IMAGE
SHARPENING*THE LAPLACIAN 160 * CONTENTS VII 3.6.3 UNSHARP MASKING AND
HIGHBOOST FILTERING 162 3.6.4 USING FIRST-ORDER DERIVATIVES FOR
(NONLINEAR) IMAGE SHARPENING*THE GRADIENT 165 3.7 COMBINING SPATIAL
ENHANCEMENT METHODS 169 3.8 USING FUZZY TECHNIQUES FOR INTENSITY
TRANSFORMATIONS AND SPATIAL FILTERING 173 3.8.1 INTRODUCTION 173 3.8.2
PRINCIPLES OF FUZZY SET THEORY 174 3.8.3 USING FUZZY SETS 178 3.8.4
USING FUZZY SETS FOR INTENSITY TRANSFORMATIONS 186 3.8.5 USING FUZZY
SETS FOR SPATIAL FILTERING 189 SUMMARY 192 REFERENCES AND FURTHER
READING 192 PROBLEMS 193 1 FILTERING IN THE FREQUENCY DOMAIN 199 4.1
BACKGROUND 200 4.1.1 A BRIEF HISTORY OF THE FOURIER SERIES AND TRANSFORM
200 4.1.2 ABOUT THE EXAMPLES IN THIS CHAPTER 201 4.2 PRELIMINARY
CONCEPTS 202 4.2.1 COMPLEX NUMBERS 202 4.2.2 FOURIER SERIES 203 4.2.3
IMPULSES AND THEIR SIFTING PROPERTY 203 4.2.4 THE FOURIER TRANSFORM OF
FUNCTIONS OF ONE CONTINUOUS VARIABLE 205 4.2.5 CONVOLUTION 209 4.3
SAMPLING AND THE FOURIER TRANSFORM OF SAMPLED FUNCTIONS 211 4.3.1
SAMPLING 211 4.3.2 THE FOURIER TRANSFORM OF SAMPLED FUNCTIONS 212 4.3.3
THE SAMPLING THEOREM 213 4.3.4 ALIASING 217 4.3.5 FUNCTION
RECONSTRUCTION (RECOVERY) FROM SAMPLED DATA 219 4.4 THE DISCRETE FOURIER
TRANSFORM (DFT) OF ONE VARIABLE 220 4.4.1 OBTAINING THE DFT FROM THE
CONTINUOUS TRANSFORM OF A SAMPLED FUNCTION 221 4.4.2 RELATIONSHIP
BETWEEN THE SAMPLING AND FREQUENCY INTERVALS 223 4.5 EXTENSION TO
FUNCTIONS OF TWO VARIABLES 225 4.5.1 THE 2-D IMPULSE AND ITS SIFTING
PROPERTY 225 4.5.2 THE 2-D CONTINUOUS FOURIER TRANSFORM PAIR 226 4.5.3
TWO-DIMENSIONAL SAMPLING AND THE 2-D SAMPLING THEOREM 227 4.5.4 ALIASING
IN IMAGES 228 4.5.5 THE 2-D DISCRETE FOURIER TRANSFORM AND ITS INVERSE
235 VIII * CONTENTS 4.6 SOME PROPERTIES OF THE 2-D DISCRETE FOURIER
TRANSFORM 236 4.6.1 RELATIONSHIPS BETWEEN SPATIAL AND FREQUENCY
INTERVALS 236 4.6.2 TRANSLATION AND ROTATION 236 4.6.3 PERIODICITY 237
4.6.4 SYMMETRY PROPERTIES 239 4.6.5 FOURIER SPECTRUM AND PHASE ANGLE 245
4.6.6 THE 2-D CONVOLUTION THEOREM 249 4.6.7 SUMMARY OF 2-D DISCRETE
FOURIER TRANSFORM PROPERTIES 253 4.7 THE BASICS OF FILTERING IN THE
FREQUENCY DOMAIN 255 4.7.1 ADDITIONAL CHARACTERISTICS OF THE FREQUENCY
DOMAIN 255 4.7.2 FREQUENCY DOMAIN FILTERING FUNDAMENTALS 257 4.7.3
SUMMARY OF STEPS FOR FILTERING IN THE FREQUENCY DOMAIN 263 4.7.4
CORRESPONDENCE BETWEEN FILTERING IN THE SPATIAL AND FREQUENCY DOMAINS
263 4.8 IMAGE SMOOTHING USING FREQUENCY DOMAIN FILTERS 269 4.8.1 IDEAL
LOWPASS FILTERS 269 4.8.2 BUTTERWORTH LOWPASS FILTERS 273 4.8.3 GAUSSIAN
LOWPASS FILTERS 276 4.8.4 ADDITIONAL EXAMPLES OF LOWPASS FILTERING 277
4.9 IMAGE SHARPENING USING FREQUENCY DOMAIN FILTERS 280 4.9.1 IDEAL
HIGHPASS FILTERS 281 4.9.2 BUTTERWORTH HIGHPASS FILTERS 284 4.9.3
GAUSSIAN HIGHPASS FILTERS 285 4.9.4 THE LAPLACIAN IN THE FREQUENCY
DOMAIN 286 4.9.5 UNSHARP MASKING, HIGHBOOST FILTERING, AND
HIGH-FREQUENCY- EMPHASIS FILTERING 288 4.9.6 HOMOMORPHIC FILTERING 289
4.10 SELECTIVE FILTERING 294 4.10.1 BANDREJECT AND BANDPASS FILTERS 294
4.10.2 NOTCH FILTERS 294 4.11 IMPLEMENTATION 298 4.11.1 SEPARABILITY OF
THE 2-D DFT 298 4.11.2 COMPUTING THE IDFT USING A DFT ALGORITHM 299
4.11.3 THE FAST FOURIER TRANSFORM (FFT) 299 4.11.4 SOME COMMENTS ON
FILTER DESIGN 303 SUMMARY 303 REFERENCES AND FURTHER READING 304
PROBLEMS 304 J IMAGE RESTORATION AND RECONSTRUCTION 311 5.1 A MODEL OF
THE IMAGE DEGRADATION/RESTORATION PROCESS 312 5.2 NOISE MODELS 313 5.2.1
SPATIAL AND FREQUENCY PROPERTIES OF NOISE 313 5.2.2 SOME IMPORTANT NOISE
PROBABILITY DENSITY FUNCTIONS 314 5.2.3 PERIODIC NOISE 318 5.2.4
ESTIMATION OF NOISE PARAMETERS 319 5.3 RESTORATION IN THE PRESENCE OF
NOISE ONLY*SPATIAL FILTERING 322 5.3.1 MEAN FILTERS 322 5.3.2
ORDER-STATISTIC FILTERS 325 5.3.3 ADAPTIVE FILTERS 330 5.4 PERIODIC
NOISE REDUCTION BY FREQUENCY DOMAIN FILTERING 335 5.4.1 BANDREJECT
FILTERS 335 5.4.2 BANDPASS FILTERS 336 5.4.3 NOTCH FILTERS 337 5.4.4
OPTIMUM NOTCH FILTERING 338 5.5 LINEAR, POSITION-INVARIANT DEGRADATIONS
343 5.6 ESTIMATING THE DEGRADATION FUNCTION 346 5.6.1 ESTIMATION BY
IMAGE OBSERVATION 346 5.6.2 ESTIMATION BY EXPERIMENTATION 347 5.6.3
ESTIMATION BY MODELING 347 5.7 INVERSE FILTERING 351 5.8 MINIMUM MEAN
SQUARE ERROR (WIENER) FILTERING 352 5.9 CONSTRAINED LEAST SQUARES
FILTERING 357 5.10 GEOMETRIC MEAN FILTER 361 5.11 IMAGE RECONSTRUCTION
FROM PROJECTIONS 362 5.11.1 INTRODUCTION 362 5.11.2 PRINCIPLES OF
COMPUTED TOMOGRAPHY (CT) 365 5.11.3 PROJECTIONS AND THE RADON TRANSFORM
368 5.11.4 THE FOURIER-SLICE THEOREM 374 5.11.5 RECONSTRUCTION USING
PARALLEL-BEAM FILTERED BACKPROJECTIONS 375 5.11.6 RECONSTRUCTION USING
FAN-BEAM FILTERED BACKPROJECTIONS 381 SUMMARY 387 REFERENCES AND FURTHER
READING 388 PROBLEMS 389 0 COLOR IMAGE PROCESSING 394 6.1 COLOR
FUNDAMENTALS 395 6.2 COLOR MODELS 401 6.2.1 THE RGB COLOR MODEL 402
6.2.2 THE CMY AND CMYK COLOR MODELS 406 6.2.3 THE HSI COLOR MODEL 407
6.3 PSEUDOCOLOR IMAGE PROCESSING 414 6.3.1 INTENSITY SLICING 415 6.3.2
INTENSITY TO COLOR TRANSFORMATIONS 418 6.4 BASICS OF FULL-COLOR IMAGE
PROCESSING 424 6.5 COLOR TRANSFORMATIONS 426 6.5.1 FORMULATION 426 6.5.2
COLOR COMPLEMENTS 430 X * CONTENTS 6.5.3 COLOR SLICING 431 6.5.4 TONE
AND COLOR CORRECTIONS 433 6.5.5 HISTOGRAM PROCESSING 438 6.6 SMOOTHING
AND SHARPENING 439 6.6.1 COLOR IMAGE SMOOTHING 439 6.6.2 COLOR IMAGE
SHARPENING 442 6.7 IMAGE SEGMENTATION BASED ON COLOR 443 6.7.1
SEGMENTATION IN HSI COLOR SPACE 443 6.7.2 SEGMENTATION IN RGB VECTOR
SPACE 445 6.7.3 COLOR EDGE DETECTION 447 6.8 NOISE IN COLOR IMAGES 451
6.9 COLOR IMAGE COMPRESSION 454 SUMMARY 455 REFERENCES AND FURTHER
READING 456 PROBLEMS 456 / WAVELETS AND MULTIRESOLUTION PROCESSING 461
7.1 BACKGROUND 462 7.1.1 IMAGE PYRAMIDS 463 7.1.2 SUBBAND CODING 466
7.1.3 THE HAAR TRANSFORM. 474 7.2 MULTIRESOLUTION EXPANSIONS 477 7.2.1
SERIES EXPANSIONS 477 7.2.2 SCALING FUNCTIONS 479 7.2.3 WAVELET
FUNCTIONS 483 7.3 WAVELET TRANSFORMS IN ONE DIMENSION 486 7.3.1 THE
WAVELET SERIES EXPANSIONS 486 7.3.2 THE DISCRETE WAVELET TRANSFORM 488
7.3.3 THE CONTINUOUS WAVELET TRANSFORM 491 7.4 THE FAST WAVELET
TRANSFORM 493 7.5 WAVELET TRANSFORMS IN TWO DIMENSIONS 501 7.6 WAVELET
PACKETS 510 SUMMARY 520 REFERENCES AND FURTHER READING 520 PROBLEMS 521
IMAGE COMPRESSION 525 8.1 FUNDAMENTALS 526 8.1.1 CODING REDUNDANCY 528
8.1.2 SPATIAL AND TEMPORAL REDUNDANCY 529 8.1.3 IRRELEVANT INFORMATION
530 8.1.4 MEASURING IMAGE INFORMATION 531 8.1.5 FIDELITY CRITERIA 534 *
CONTENTS XI 8.1.6 IMAGE COMPRESSION MODELS 536 8.1.7 IMAGE FORMATS,
CONTAINERS, AND COMPRESSION STANDARDS 538 8.2 SOME BASIC COMPRESSION
METHODS 542 8.2.1 HUFFMAN CODING 542 8.2.2 GOLOMB CODING 544 8.2.3
ARITHMETIC CODING 548 8.2.4 LZW CODING 551 * 8.2.5 RUN-LENGTH CODING 553
8.2.6 SYMBOL-BASED CODING 559 8.2.7 BIT-PLANE CODING 562 8.2.8 BLOCK
TRANSFORM CODING 566 8.2.9 PREDICTIVE CODING 584 8.2.10 WAVELET CODING
604 8.3 DIGITAL IMAGE WATERMARKING 614 SUMMARY 621 REFERENCES AND
FURTHER READING 622 PROBLEMS 623 7 MORPHOLOGICAL IMAGE PROCESSING 627
9.1 PRELIMINARIES 628 9.2 EROSION AND DILATION 630 9.2.1 EROSION 631
9.2.2 DILATION 633 9.2.3 DUALITY 635 9.3 OPENING AND CLOSING 635 9.4 THE
HIT-OR-MISS TRANSFORMATION 640 9.5 SOME BASIC MORPHOLOGICAL ALGORITHMS
642 9.5.1 BOUNDARY EXTRACTION 642 9.5.2 HOLE FILLING 643 9.5.3
EXTRACTION OF CONNECTED COMPONENTS 645 9.5.4 CONVEX HULL 647 9.5.5
THINNING 649 9.5.6 THICKENING 650 9.5.7 SKELETONS 651 9.5.8 PRUNING 654
9.5.9 MORPHOLOGICAL RECONSTRUCTION 656 9.5.10 SUMMARY OF MORPHOLOGICAL
OPERATIONS ON BINARY IMAGES 664 9.6 GRAY-SCALE MORPHOLOGY 665 9.6.1
EROSION AND DILATION 666 9.6.2 OPENING AND CLOSING 668 9.6.3 SOME BASIC
GRAY-SCALE MORPHOLOGICAL ALGORITHMS 670 9.6.4 GRAY-SCALE MORPHOLOGICAL
RECONSTRUCTION 676 SUMMARY 679 REFERENCES AND FURTHER READING 679
PROBLEMS 680 XII * CONTENTS IMAGE SEGMENTATION 689 10.1 FUNDAMENTALS 690
10.2 POINT, LINE, AND EDGE DETECTION 692 10.2.1 BACKGROUND 692 10.2.2
DETECTION OF ISOLATED POINTS 696 10.2.3 LINE DETECTION 697 10.2.4 EDGE
MODELS 700 10.2.5 BASIC EDGE DETECTION 706 10.2.6 MORE ADVANCED
TECHNIQUES FOR EDGE DETECTION 714 10.2.7 EDGE LINKING AND BOUNDARY
DETECTION 725 10.3 THRESHOLDING 738 10.3.1 FOUNDATION 738 10.3.2 BASIC
GLOBAL THRESHOLDING 741 10.3.3 OPTIMUM GLOBAL THRESHOLDING USING OTSU'S
METHOD 742 10.3.4 USING IMAGE SMOOTHING TO IMPROVE GLOBAL THRESHOLDING
747 10.3.5 USING EDGES TO IMPROVE GLOBAL THRESHOLDING 749 10.3.6
MULTIPLE THRESHOLDS 752 10.3.7 VARIABLE THRESHOLDING 756 10.3.8
MULTIVARIABLE THRESHOLDING 761 10.4 REGION-BASED SEGMENTATION 763 10.4.1
REGION GROWING 763 10.4.2 REGION SPLITTING AND MERGING 766 10.5
SEGMENTATION USING MORPHOLOGICAL WATERSHEDS 769 10.5.1 BACKGROUND 769
10.5.2 DAM CONSTRUCTION 772 10.5.3 WATERSHED SEGMENTATION ALGORITHM 774
10.5.4 THE USE OF MARKERS 776 10.6 THE USE OF MOTION IN SEGMENTATION 778
10.6.1 SPATIAL TECHNIQUES 778 10.6.2 FREQUENCY DOMAIN TECHNIQUES 782
SUMMARY 785 REFERENCES AND FURTHER READING 785 PROBLEMS 787 I
REPRESENTATION AND DESCRIPTION 795 11.1 REPRESENTATION 796 11.1.1
BOUNDARY (BORDER) FOLLOWING 796 11.1.2 CHAIN CODES 798 11.1.3 POLYGONAL
APPROXIMATIONS USING MINIMUM-PERIMETER POLYGONS 801 11.1.4 OTHER
POLYGONAL APPROXIMATION APPROACHES 807 11.1.5 SIGNATURES 808 1 *
CONTENTS XIII 11.1.6 BOUNDARY SEGMENTS 810 11.1.7 SKELETONS 812 11.2
BOUNDARY DESCRIPTORS 815 11.2.1 SOME SIMPLE DESCRIPTORS 815 11.2.2 SHAPE
NUMBERS 816 11.2.3 FOURIER DESCRIPTORS 818 11.2.4 STATISTICAL MOMENTS
821 11.3 REGIONAL DESCRIPTORS 822 11.3.1 SOME SIMPLE DESCRIPTORS 822
11.3.2 TOPOLOGICAL DESCRIPTORS 823 11.3.3 TEXTURE 827 11.3.4 MOMENT
INVARIANTS 839 11.4 USE OF PRINCIPAL COMPONENTS FOR DESCRIPTION 842 11.5
RELATIONAL DESCRIPTORS 852 SUMMARY 856 REFERENCES AND FURTHER READING
856 PROBLEMS 857 OBJECT RECOGNITION 861 12.1 PATTERNS AND PATTERN
CLASSES 861 12.2 RECOGNITION BASED ON DECISION-THEORETIC METHODS 866
12.2.1 MATCHING 866 12.2.2 OPTIMUM STATISTICAL CLASSIFIERS 872 12.2.3
NEURAL NETWORKS 882 12.3 STRUCTURAL METHODS 903 12.3.1 MATCHING SHAPE
NUMBERS 903 12.3.2 STRING MATCHING 904 SUMMARY 906 REFERENCES AND
FURTHER READING 906 PROBLEMS 907 APPENDIX A 910 BIBLIOGRAPHY 915 INDEX
943 |
| adam_txt |
DIGITAL IMAGE PROCESSING THIRD EDITION RAFAEL C. GONZALEZ UNIVERSITY OF
TENNESSEE RICHARD E. WOODS MEDDATA INTERACTIVE PEARSON PRENTICE HALL
PEARSON EDUCATION INTERNATIONAL CONTENTS PREFACE XV ACKNOWLEDGMENTS THE
BOOK WEB SITE XX ABOUT THE AUTHORS XXI I INTRODUCTION 1 1.1 WHAT IS
DIGITAL IMAGE PROCESSING? 1 1.2 THE ORIGINS OF DIGITAL IMAGE PROCESSING
3 1.3 EXAMPLES OF FIELDS THAT USE DIGITAL IMAGE PROCESSING 7 1.3.1
GAMMA-RAY IMAGING 8 1.3.2 X-RAY IMAGING 9 1.3.3 IMAGING IN THE
ULTRAVIOLET BAND 11 1.3.4 IMAGING IN THE VISIBLE AND INFRARED BANDS 12
1.3.5 IMAGING IN THE MICROWAVE BAND 18 1.3.6 IMAGING IN THE RADIO BAND
20 1.3.7 EXAMPLES IN WHICH OTHER IMAGING MODALITIES ARE USED 1.4
FUNDAMENTAL STEPS IN DIGITAL IMAGE PROCESSING 25 1.5 COMPONENTS OF AN
IMAGE PROCESSING SYSTEM 28 SUMMARY 31 REFERENCES AND FURTHER READING 31
L DIGITAL IMAGE FUNDAMENTALS 35 2.1 ELEMENTS OF VISUAL PERCEPTION 36
2.1.1 STRUCTURE OF THE HUMAN EYE 36 2.1.2 IMAGE FORMATION IN THE EYE 38
2.1.3 BRIGHTNESS ADAPTATION AND DISCRIMINATION 39 2.2 LIGHT AND THE
ELECTROMAGNETIC SPECTRUM 43 2.3 IMAGE SENSING AND ACQUISITION 46 2.3.1
IMAGE ACQUISITION USING A SINGLE SENSOR 48 2.3.2 IMAGE ACQUISITION USING
SENSOR STRIPS 48 2.3.3 IMAGE ACQUISITION USING SENSOR ARRAYS 50 2.3.4 A
SIMPLE IMAGE FORMATION MODEL 50 2.4 IMAGE SAMPLING AND QUANTIZATION 52
2.4.1 BASIC CONCEPTS IN SAMPLING AND QUANTIZATION 52 2.4.2 REPRESENTING
DIGITAL IMAGES 55 2.4.3 SPATIAL AND INTENSITY RESOLUTION 59 2.4.4 IMAGE
INTERPOLATION 65 VI * CONTENTS 2.5 SOME BASIC RELATIONSHIPS BETWEEN
PIXELS 68 2.5.1 NEIGHBORS OF A PIXEL 68 2.5.2 ADJACENCY, CONNECTIVITY,
REGIONS, AND BOUNDARIES 68 2.5.3 DISTANCE MEASURES 71 2.6 AN
INTRODUCTION TO THE MATHEMATICAL TOOLS USED IN DIGITAL IMAGE PROCESSING
72 2.6.1 ARRAY VERSUS MATRIX OPERATIONS 72 2.6.2 LINEAR VERSUS NONLINEAR
OPERATIONS 73 2.6.3 ARITHMETIC OPERATIONS 74 2.6.4 SET AND LOGICAL
OPERATIONS 80 2.6.5 SPATIAL OPERATIONS 85 2.6.6 VECTOR AND MATRIX
OPERATIONS 92 2.6.7 IMAGE TRANSFORMS 93 2.6.8 PROBABILISTIC METHODS 96
SUMMARY 98 REFERENCES AND FURTHER READING 98 PROBLEMS 99 J INTENSITY
TRANSFORMATIONS AND SPATIAL FILTERING 104 3.1 BACKGROUND 105 3.1.1 THE
BASICS OF INTENSITY TRANSFORMATIONS AND SPATIAL FILTERING 105 3.1.2
ABOUT THE EXAMPLES IN THIS CHAPTER 107 3.2 SOME BASIC INTENSITY
TRANSFORMATION FUNCTIONS 107 3.2.1 IMAGE NEGATIVES 108 3.2.2 LOG
TRANSFORMATIONS 109 3.2.3 POWER-LAW (GAMMA) TRANSFORMATIONS 110 3.2.4
PIECEWISE-LINEAR TRANSFORMATION FUNCTIONS 115 3.3 HISTOGRAM PROCESSING
120 3.3.1 HISTOGRAM EQUALIZATION 122 3.3.2 HISTOGRAM MATCHING
(SPECIFICATION) 128 3.3.3 LOCAL HISTOGRAM PROCESSING 139 3.3.4 USING
HISTOGRAM STATISTICS FOR IMAGE ENHANCEMENT 139 3.4 FUNDAMENTALS OF
SPATIAL FILTERING 144 3.4.1 THE MECHANICS OF SPATIAL FILTERING 145 3.4.2
SPATIAL CORRELATION AND CONVOLUTION 146 3.4.3 VECTOR REPRESENTATION OF
LINEAR FILTERING 150 3.4.4 GENERATING SPATIAL FILTER MASKS 151 3.5
SMOOTHING SPATIAL FILTERS 152 3.5.1 SMOOTHING LINEAR FILTERS 152 3.5.2
ORDER-STATISTIC (NONLINEAR) FILTERS 156 3.6 SHARPENING SPATIAL FILTERS
157 3.6.1 FOUNDATION 158 3.6.2 USING THE SECOND DERIVATIVE FOR IMAGE
SHARPENING*THE LAPLACIAN 160 * CONTENTS VII 3.6.3 UNSHARP MASKING AND
HIGHBOOST FILTERING 162 3.6.4 USING FIRST-ORDER DERIVATIVES FOR
(NONLINEAR) IMAGE SHARPENING*THE GRADIENT 165 3.7 COMBINING SPATIAL
ENHANCEMENT METHODS 169 3.8 USING FUZZY TECHNIQUES FOR INTENSITY
TRANSFORMATIONS AND SPATIAL FILTERING 173 3.8.1 INTRODUCTION 173 3.8.2
PRINCIPLES OF FUZZY SET THEORY 174 3.8.3 USING FUZZY SETS 178 3.8.4
USING FUZZY SETS FOR INTENSITY TRANSFORMATIONS 186 3.8.5 USING FUZZY
SETS FOR SPATIAL FILTERING 189 SUMMARY 192 REFERENCES AND FURTHER
READING 192 PROBLEMS 193 1 FILTERING IN THE FREQUENCY DOMAIN 199 4.1
BACKGROUND 200 4.1.1 A BRIEF HISTORY OF THE FOURIER SERIES AND TRANSFORM
200 4.1.2 ABOUT THE EXAMPLES IN THIS CHAPTER 201 4.2 PRELIMINARY
CONCEPTS 202 4.2.1 COMPLEX NUMBERS 202 4.2.2 FOURIER SERIES 203 4.2.3
IMPULSES AND THEIR SIFTING PROPERTY 203 4.2.4 THE FOURIER TRANSFORM OF
FUNCTIONS OF ONE CONTINUOUS VARIABLE 205 4.2.5 CONVOLUTION 209 4.3
SAMPLING AND THE FOURIER TRANSFORM OF SAMPLED FUNCTIONS 211 4.3.1
SAMPLING 211 4.3.2 THE FOURIER TRANSFORM OF SAMPLED FUNCTIONS 212 4.3.3
THE SAMPLING THEOREM 213 4.3.4 ALIASING 217 4.3.5 FUNCTION
RECONSTRUCTION (RECOVERY) FROM SAMPLED DATA 219 4.4 THE DISCRETE FOURIER
TRANSFORM (DFT) OF ONE VARIABLE 220 4.4.1 OBTAINING THE DFT FROM THE
CONTINUOUS TRANSFORM OF A SAMPLED FUNCTION 221 4.4.2 RELATIONSHIP
BETWEEN THE SAMPLING AND FREQUENCY INTERVALS 223 4.5 EXTENSION TO
FUNCTIONS OF TWO VARIABLES 225 4.5.1 THE 2-D IMPULSE AND ITS SIFTING
PROPERTY 225 4.5.2 THE 2-D CONTINUOUS FOURIER TRANSFORM PAIR 226 4.5.3
TWO-DIMENSIONAL SAMPLING AND THE 2-D SAMPLING THEOREM 227 4.5.4 ALIASING
IN IMAGES 228 4.5.5 THE 2-D DISCRETE FOURIER TRANSFORM AND ITS INVERSE
235 VIII * CONTENTS 4.6 SOME PROPERTIES OF THE 2-D DISCRETE FOURIER
TRANSFORM 236 4.6.1 RELATIONSHIPS BETWEEN SPATIAL AND FREQUENCY
INTERVALS 236 4.6.2 TRANSLATION AND ROTATION 236 4.6.3 PERIODICITY 237
4.6.4 SYMMETRY PROPERTIES 239 4.6.5 FOURIER SPECTRUM AND PHASE ANGLE 245
4.6.6 THE 2-D CONVOLUTION THEOREM 249 4.6.7 SUMMARY OF 2-D DISCRETE
FOURIER TRANSFORM PROPERTIES 253 4.7 THE BASICS OF FILTERING IN THE
FREQUENCY DOMAIN 255 4.7.1 ADDITIONAL CHARACTERISTICS OF THE FREQUENCY
DOMAIN 255 4.7.2 FREQUENCY DOMAIN FILTERING FUNDAMENTALS 257 4.7.3
SUMMARY OF STEPS FOR FILTERING IN THE FREQUENCY DOMAIN 263 4.7.4
CORRESPONDENCE BETWEEN FILTERING IN THE SPATIAL AND FREQUENCY DOMAINS
263 4.8 IMAGE SMOOTHING USING FREQUENCY DOMAIN FILTERS 269 4.8.1 IDEAL
LOWPASS FILTERS 269 4.8.2 BUTTERWORTH LOWPASS FILTERS 273 4.8.3 GAUSSIAN
LOWPASS FILTERS 276 4.8.4 ADDITIONAL EXAMPLES OF LOWPASS FILTERING 277
4.9 IMAGE SHARPENING USING FREQUENCY DOMAIN FILTERS 280 4.9.1 IDEAL
HIGHPASS FILTERS 281 4.9.2 BUTTERWORTH HIGHPASS FILTERS 284 4.9.3
GAUSSIAN HIGHPASS FILTERS 285 4.9.4 THE LAPLACIAN IN THE FREQUENCY
DOMAIN 286 4.9.5 UNSHARP MASKING, HIGHBOOST FILTERING, AND
HIGH-FREQUENCY- EMPHASIS FILTERING 288 4.9.6 HOMOMORPHIC FILTERING 289
4.10 SELECTIVE FILTERING 294 4.10.1 BANDREJECT AND BANDPASS FILTERS 294
4.10.2 NOTCH FILTERS 294 4.11 IMPLEMENTATION 298 4.11.1 SEPARABILITY OF
THE 2-D DFT 298 4.11.2 COMPUTING THE IDFT USING A DFT ALGORITHM 299
4.11.3 THE FAST FOURIER TRANSFORM (FFT) 299 4.11.4 SOME COMMENTS ON
FILTER DESIGN 303 SUMMARY 303 REFERENCES AND FURTHER READING 304
PROBLEMS 304 J IMAGE RESTORATION AND RECONSTRUCTION 311 5.1 A MODEL OF
THE IMAGE DEGRADATION/RESTORATION PROCESS 312 5.2 NOISE MODELS 313 5.2.1
SPATIAL AND FREQUENCY PROPERTIES OF NOISE 313 5.2.2 SOME IMPORTANT NOISE
PROBABILITY DENSITY FUNCTIONS 314 5.2.3 PERIODIC NOISE 318 5.2.4
ESTIMATION OF NOISE PARAMETERS 319 5.3 RESTORATION IN THE PRESENCE OF
NOISE ONLY*SPATIAL FILTERING 322 5.3.1 MEAN FILTERS 322 5.3.2
ORDER-STATISTIC FILTERS 325 5.3.3 ADAPTIVE FILTERS 330 5.4 PERIODIC
NOISE REDUCTION BY FREQUENCY DOMAIN FILTERING 335 5.4.1 BANDREJECT
FILTERS 335 5.4.2 BANDPASS FILTERS 336 5.4.3 NOTCH FILTERS 337 5.4.4
OPTIMUM NOTCH FILTERING 338 5.5 LINEAR, POSITION-INVARIANT DEGRADATIONS
343 5.6 ESTIMATING THE DEGRADATION FUNCTION 346 5.6.1 ESTIMATION BY
IMAGE OBSERVATION 346 5.6.2 ESTIMATION BY EXPERIMENTATION 347 5.6.3
ESTIMATION BY MODELING 347 5.7 INVERSE FILTERING 351 5.8 MINIMUM MEAN
SQUARE ERROR (WIENER) FILTERING 352 5.9 CONSTRAINED LEAST SQUARES
FILTERING 357 5.10 GEOMETRIC MEAN FILTER 361 5.11 IMAGE RECONSTRUCTION
FROM PROJECTIONS 362 5.11.1 INTRODUCTION 362 5.11.2 PRINCIPLES OF
COMPUTED TOMOGRAPHY (CT) 365 5.11.3 PROJECTIONS AND THE RADON TRANSFORM
368 5.11.4 THE FOURIER-SLICE THEOREM 374 5.11.5 RECONSTRUCTION USING
PARALLEL-BEAM FILTERED BACKPROJECTIONS 375 5.11.6 RECONSTRUCTION USING
FAN-BEAM FILTERED BACKPROJECTIONS 381 SUMMARY 387 REFERENCES AND FURTHER
READING 388 PROBLEMS 389 0 COLOR IMAGE PROCESSING 394 6.1 COLOR
FUNDAMENTALS 395 6.2 COLOR MODELS 401 6.2.1 THE RGB COLOR MODEL 402
6.2.2 THE CMY AND CMYK COLOR MODELS 406 6.2.3 THE HSI COLOR MODEL 407
6.3 PSEUDOCOLOR IMAGE PROCESSING 414 6.3.1 INTENSITY SLICING 415 6.3.2
INTENSITY TO COLOR TRANSFORMATIONS 418 6.4 BASICS OF FULL-COLOR IMAGE
PROCESSING 424 6.5 COLOR TRANSFORMATIONS 426 6.5.1 FORMULATION 426 6.5.2
COLOR COMPLEMENTS 430 X * CONTENTS 6.5.3 COLOR SLICING 431 6.5.4 TONE
AND COLOR CORRECTIONS 433 6.5.5 HISTOGRAM PROCESSING 438 6.6 SMOOTHING
AND SHARPENING 439 6.6.1 COLOR IMAGE SMOOTHING 439 6.6.2 COLOR IMAGE
SHARPENING 442 6.7 IMAGE SEGMENTATION BASED ON COLOR 443 6.7.1
SEGMENTATION IN HSI COLOR SPACE 443 6.7.2 SEGMENTATION IN RGB VECTOR
SPACE 445 6.7.3 COLOR EDGE DETECTION 447 6.8 NOISE IN COLOR IMAGES 451
6.9 COLOR IMAGE COMPRESSION 454 SUMMARY 455 REFERENCES AND FURTHER
READING 456 PROBLEMS 456 / WAVELETS AND MULTIRESOLUTION PROCESSING 461
7.1 BACKGROUND 462 7.1.1 IMAGE PYRAMIDS 463 7.1.2 SUBBAND CODING 466
7.1.3 THE HAAR TRANSFORM. 474 7.2 MULTIRESOLUTION EXPANSIONS 477 7.2.1
SERIES EXPANSIONS 477 7.2.2 SCALING FUNCTIONS 479 7.2.3 WAVELET
FUNCTIONS 483 7.3 WAVELET TRANSFORMS IN ONE DIMENSION 486 7.3.1 THE
WAVELET SERIES EXPANSIONS 486 7.3.2 THE DISCRETE WAVELET TRANSFORM 488
7.3.3 THE CONTINUOUS WAVELET TRANSFORM 491 7.4 THE FAST WAVELET
TRANSFORM 493 7.5 WAVELET TRANSFORMS IN TWO DIMENSIONS 501 7.6 WAVELET
PACKETS 510 SUMMARY 520 REFERENCES AND FURTHER READING 520 PROBLEMS 521
IMAGE COMPRESSION 525 8.1 FUNDAMENTALS 526 8.1.1 CODING REDUNDANCY 528
8.1.2 SPATIAL AND TEMPORAL REDUNDANCY 529 8.1.3 IRRELEVANT INFORMATION
530 8.1.4 MEASURING IMAGE INFORMATION 531 8.1.5 FIDELITY CRITERIA 534 *
CONTENTS XI 8.1.6 IMAGE COMPRESSION MODELS 536 8.1.7 IMAGE FORMATS,
CONTAINERS, AND COMPRESSION STANDARDS 538 8.2 SOME BASIC COMPRESSION
METHODS 542 8.2.1 HUFFMAN CODING 542 8.2.2 GOLOMB CODING 544 8.2.3
ARITHMETIC CODING 548 8.2.4 LZW CODING 551 * 8.2.5 RUN-LENGTH CODING 553
8.2.6 SYMBOL-BASED CODING 559 8.2.7 BIT-PLANE CODING 562 8.2.8 BLOCK
TRANSFORM CODING 566 8.2.9 PREDICTIVE CODING 584 8.2.10 WAVELET CODING
604 8.3 DIGITAL IMAGE WATERMARKING 614 SUMMARY 621 REFERENCES AND
FURTHER READING 622 PROBLEMS 623 7 MORPHOLOGICAL IMAGE PROCESSING 627
9.1 PRELIMINARIES 628 9.2 EROSION AND DILATION 630 9.2.1 EROSION 631
9.2.2 DILATION 633 9.2.3 DUALITY 635 9.3 OPENING AND CLOSING 635 9.4 THE
HIT-OR-MISS TRANSFORMATION 640 9.5 SOME BASIC MORPHOLOGICAL ALGORITHMS
642 9.5.1 BOUNDARY EXTRACTION 642 9.5.2 HOLE FILLING 643 9.5.3
EXTRACTION OF CONNECTED COMPONENTS 645 9.5.4 CONVEX HULL 647 9.5.5
THINNING 649 9.5.6 THICKENING 650 9.5.7 SKELETONS 651 9.5.8 PRUNING 654
9.5.9 MORPHOLOGICAL RECONSTRUCTION 656 9.5.10 SUMMARY OF MORPHOLOGICAL
OPERATIONS ON BINARY IMAGES 664 9.6 GRAY-SCALE MORPHOLOGY 665 9.6.1
EROSION AND DILATION 666 9.6.2 OPENING AND CLOSING 668 9.6.3 SOME BASIC
GRAY-SCALE MORPHOLOGICAL ALGORITHMS 670 9.6.4 GRAY-SCALE MORPHOLOGICAL
RECONSTRUCTION 676 SUMMARY 679 REFERENCES AND FURTHER READING 679
PROBLEMS 680 XII * CONTENTS IMAGE SEGMENTATION 689 10.1 FUNDAMENTALS 690
10.2 POINT, LINE, AND EDGE DETECTION 692 10.2.1 BACKGROUND 692 10.2.2
DETECTION OF ISOLATED POINTS 696 10.2.3 LINE DETECTION 697 10.2.4 EDGE
MODELS 700 10.2.5 BASIC EDGE DETECTION 706 10.2.6 MORE ADVANCED
TECHNIQUES FOR EDGE DETECTION 714 10.2.7 EDGE LINKING AND BOUNDARY
DETECTION 725 10.3 THRESHOLDING 738 10.3.1 FOUNDATION 738 10.3.2 BASIC
GLOBAL THRESHOLDING 741 10.3.3 OPTIMUM GLOBAL THRESHOLDING USING OTSU'S
METHOD 742 10.3.4 USING IMAGE SMOOTHING TO IMPROVE GLOBAL THRESHOLDING
747 10.3.5 USING EDGES TO IMPROVE GLOBAL THRESHOLDING 749 10.3.6
MULTIPLE THRESHOLDS 752 10.3.7 VARIABLE THRESHOLDING 756 10.3.8
MULTIVARIABLE THRESHOLDING 761 10.4 REGION-BASED SEGMENTATION 763 10.4.1
REGION GROWING 763 10.4.2 REGION SPLITTING AND MERGING 766 10.5
SEGMENTATION USING MORPHOLOGICAL WATERSHEDS 769 10.5.1 BACKGROUND 769
10.5.2 DAM CONSTRUCTION 772 10.5.3 WATERSHED SEGMENTATION ALGORITHM 774
10.5.4 THE USE OF MARKERS 776 10.6 THE USE OF MOTION IN SEGMENTATION 778
10.6.1 SPATIAL TECHNIQUES 778 10.6.2 FREQUENCY DOMAIN TECHNIQUES 782
SUMMARY 785 REFERENCES AND FURTHER READING 785 PROBLEMS 787 I
REPRESENTATION AND DESCRIPTION 795 11.1 REPRESENTATION 796 11.1.1
BOUNDARY (BORDER) FOLLOWING 796 11.1.2 CHAIN CODES 798 11.1.3 POLYGONAL
APPROXIMATIONS USING MINIMUM-PERIMETER POLYGONS 801 11.1.4 OTHER
POLYGONAL APPROXIMATION APPROACHES 807 11.1.5 SIGNATURES 808 1 *
CONTENTS XIII 11.1.6 BOUNDARY SEGMENTS 810 11.1.7 SKELETONS 812 11.2
BOUNDARY DESCRIPTORS 815 11.2.1 SOME SIMPLE DESCRIPTORS 815 11.2.2 SHAPE
NUMBERS 816 11.2.3 FOURIER DESCRIPTORS 818 11.2.4 STATISTICAL MOMENTS
821 11.3 REGIONAL DESCRIPTORS 822 11.3.1 SOME SIMPLE DESCRIPTORS 822
11.3.2 TOPOLOGICAL DESCRIPTORS 823 11.3.3 TEXTURE 827 11.3.4 MOMENT
INVARIANTS 839 11.4 USE OF PRINCIPAL COMPONENTS FOR DESCRIPTION 842 11.5
RELATIONAL DESCRIPTORS 852 SUMMARY 856 REFERENCES AND FURTHER READING
856 PROBLEMS 857 OBJECT RECOGNITION 861 12.1 PATTERNS AND PATTERN
CLASSES 861 12.2 RECOGNITION BASED ON DECISION-THEORETIC METHODS 866
12.2.1 MATCHING 866 12.2.2 OPTIMUM STATISTICAL CLASSIFIERS 872 12.2.3
NEURAL NETWORKS 882 12.3 STRUCTURAL METHODS 903 12.3.1 MATCHING SHAPE
NUMBERS 903 12.3.2 STRING MATCHING 904 SUMMARY 906 REFERENCES AND
FURTHER READING 906 PROBLEMS 907 APPENDIX A 910 BIBLIOGRAPHY 915 INDEX
943 |
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| author | Gonzalez, Rafael C. Woods, Richard E. 1954- |
| author_GND | (DE-588)136376762 |
| author_facet | Gonzalez, Rafael C. Woods, Richard E. 1954- |
| author_role | aut aut |
| author_sort | Gonzalez, Rafael C. |
| author_variant | r c g rc rcg r e w re rew |
| building | Verbundindex |
| bvnumber | BV035026318 |
| callnumber-first | T - Technology |
| callnumber-label | TA1632 |
| callnumber-raw | TA1632 |
| callnumber-search | TA1632 |
| callnumber-sort | TA 41632 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | ST 330 ZN 6050 |
| classification_tum | DAT 760f |
| ctrlnum | (OCoLC)137312858 (DE-599)BVBBV035026318 |
| dewey-full | 621.36/7 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.36/7 |
| dewey-search | 621.36/7 |
| dewey-sort | 3621.36 17 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Informatik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Informatik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 3. ed., internat. ed. |
| format | Book |
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| genre_facet | Lehrbuch |
| id | DE-604.BV035026318 |
| illustrated | Illustrated |
| index_date | 2024-07-02T21:48:02Z |
| indexdate | 2024-10-30T04:00:25Z |
| institution | BVB |
| isbn | 013505267X 9780131687288 9780135052679 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016695364 |
| oclc_num | 137312858 |
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| owner | DE-898 DE-BY-UBR DE-29T DE-20 DE-706 DE-91G DE-BY-TUM DE-M347 DE-634 DE-703 DE-83 DE-11 DE-863 DE-BY-FWS DE-858 DE-860 DE-Aug4 DE-861 DE-1102 DE-91 DE-BY-TUM DE-578 DE-739 DE-1046 DE-522 DE-355 DE-BY-UBR |
| owner_facet | DE-898 DE-BY-UBR DE-29T DE-20 DE-706 DE-91G DE-BY-TUM DE-M347 DE-634 DE-703 DE-83 DE-11 DE-863 DE-BY-FWS DE-858 DE-860 DE-Aug4 DE-861 DE-1102 DE-91 DE-BY-TUM DE-578 DE-739 DE-1046 DE-522 DE-355 DE-BY-UBR |
| physical | XXII, 954 S. Ill., graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Prentice Hall |
| record_format | marc |
| spellingShingle | Gonzalez, Rafael C. Woods, Richard E. 1954- Digital image processing Beeldverwerking gtt Computers gtt Digitale technieken gtt Traitement d'images - Techniques numériques Image processing Digital techniques Bildverarbeitung (DE-588)4006684-8 gnd |
| subject_GND | (DE-588)4006684-8 (DE-588)4123623-3 |
| title | Digital image processing |
| title_auth | Digital image processing |
| title_exact_search | Digital image processing |
| title_exact_search_txtP | Digital image processing |
| title_full | Digital image processing Rafael C. Gonzalez ; Richard E. Woods |
| title_fullStr | Digital image processing Rafael C. Gonzalez ; Richard E. Woods |
| title_full_unstemmed | Digital image processing Rafael C. Gonzalez ; Richard E. Woods |
| title_short | Digital image processing |
| title_sort | digital image processing |
| topic | Beeldverwerking gtt Computers gtt Digitale technieken gtt Traitement d'images - Techniques numériques Image processing Digital techniques Bildverarbeitung (DE-588)4006684-8 gnd |
| topic_facet | Beeldverwerking Computers Digitale technieken Traitement d'images - Techniques numériques Image processing Digital techniques Bildverarbeitung Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016695364&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT gonzalezrafaelc digitalimageprocessing AT woodsricharde digitalimageprocessing |
Inhaltsverzeichnis
Würzburg Teilbibliothek SHL, Raum I.2.11
| Signatur: |
1340 ST 330 G643(3)st |
|---|---|
| Exemplar 1 | nicht ausleihbar Verfügbar |