Digital Image Processing

Dr S Sridhar is Associate Professor, Department of Information Science& Technology, College of Engineering Guindy, Anna University, Chennai. He has more than 20 years of active teaching and research experience. He has served as a project trainee at Council for Scientific and Industrial Research (CSIR), Chennai and Indian Space Research Organisation (ISRO) for a short stint. A PhD from Anna University, his doctoral specialisation was in medical imaging. He has published a lot of research articles related to medical imaging in leading national and international journals.

1.1 OVERVIEW OF IMAGE PROCESSING; 1.2 NATURE OF DIGITAL IMAGE PROCESSING; 1.3 IMAGE PROCESSING AND RELATED FIELDS; 1.3.1 IMAGE PROCESSING AND COMPUTER GRAPHICS; 1.3.2 IMAGE PROCESSING AND SIGNAL PROCESSING; 1.3.3 IMAGE PROCESSING AND MACHINE VISION; 1.3.4 IMAGE PROCESSING AND VIDEO PROCESSING; 1.3.5 IMAGE PROCESSING AND OPTICS; 1.3.6 IMAGE PROCESSING AND STATISTICS; 1.4 DIGITAL IMAGE REPRESENTATION; 1.5 TYPES OF IMAGES; 1.5.1 TYPES OF IMAGES BASED ON ATTRIBUTES; 1.5.2 TYPES OF IMAGES BASED ON COLOUR; 1.5.2.1 GREY SCALE IMAGES; 1.5.2.2 BINARY IMAGES; 1.5.2.3 COLOUR IMAGES; 1.5.2.4 PSEUDOCOLOUR IMAGES; 1.5.3 TYPES OF IMAGES BASED ON DIMENSIONS; 1.5.4 TYPES OF IMAGES BASED ON DATA TYPES; 1.6 DIGITAL IMAGE PROCESSING OPERATIONS; 1.7 FUNDAMENTAL STEPS IN IMAGE PROCESSING; 1.7.1 IMAGE ENHANCEMENT; 1.7.2 IMAGE RESTORATION; 1.7.3 IMAGE COMPRESSION; 1.7.4 IMAGE ANALYSIS; 1.7.5 IMAGE SYNTHESIS; 1.8 IMAGE PROCESSING APPLICATIONS; 1.8.1 BIOMETRICS; 1.8.2 MEDICAL IMAGING; 1.8.3 FACTORY AUTOMATION; 1.8.4 REMOTE SENSING; 1.8.5 DOCUMENT IMAGE PROCESSING; 1.8.6 DEFENSE/MILITARY APPLICATIONS; 1.8.7 PHOTOGRAPHY; 1.8.8 ENTERTAINMENT; 1.9 DIGITAL IMAGING SYSTEM; 1.9.1 IMAGE SENSORS; 1.9.2 IMAGE STORAGE; 1.9.3 IMAGE PROCESSOR; 1.9.4 OUTPUT DEVICES; 1.9.5 NETWORKING COMPONENTS; 1.9.6 IMAGE PROCESSING SOFTWARE; 2.1 PHYSICAL ASPECTS OF IMAGE ACQUISITION; 2.1.1 NATURE OF LIGHT; 2.1.2 LIGHTING SYSTEM DESIGN; 2.1.3 SIMPLE IMAGE FORMATION PROCESS; 2.2 BIOLOGICAL ASPECTS OF IMAGE ACQUISITION; 2.2.1 HUMAN VISUAL SYSTEM; 2.2.2 PROPERTIES OF HUMAN VISUAL SYSTEM; 2.2.2.1 BRIGHTNESS ADAPTATION; 2.2.2.2 INTENSITY AND BRIGHTNESS; 2.2.2.3 SIMULTANEOUS CONTRAST; 2.2.2.4 MACH BANDS; 2.2.2.5 FREQUENCY RESPONSE; 2.3 REVIEW OF DIGITAL CAMERA; 2.4 SAMPLING AND QUANTIZATION; 2.5 IMAGE QUALITY; 2.5.1 OPTICAL RESOLUTION; 2.5.2 IMAGE DISPLAY DEVICES AND DEVICE RESOLUTION; 2.5.3 DIGITAL HALFTONE PROCESS; 2.5.3.1 RANDOM DITHERING; 2.5.3.2 ORDERED DITHERING; 2.5.3.3 NON-PERIODIC DITHERING; 2.6 IMAGE STORAGE AND FILE FORMATS; 2.6.1 TYPES OF FILE FORMATS; 2.6.2 STRUCTURE OF FILE FORMAT; 3.1 BASIC RELATIONSHIPS AND DISTANCE METRICS; 3.1.1 IMAGE COORDINATE SYSTEM; 3.1.2 IMAGE TOPOLOGY; 3.1.3 CONNECTIVITY; 3.1.4 RELATIONS; 3.1.5 DISTANCE MEASURES; 3.1.6 SOME IMPORTANT IMAGE CHARACTERISTICS; 3.2 IMAGE PROCESSING OPERATIONS; 3.2.1 ARITHMETIC OPERATIONS; 3.2.1.1 IMAGE ADDITION; 3.2.1.2 IMAGE SUBTRACTION; 3.2.1.3 IMAGE MULTIPLICATION; 3.2.1.4 IMAGE DIVISION; 3.2.1.5 APPLICATIONS OF ARITHMETIC OPERATIONS; 3.2.2 LOGICAL OPERATIONS; 3.2.2.1 AND/NAND; 3.2.2.2 OR/NOR; 3.2.2.3 XOR/XNOR T; 3.2.2.4 INVERT/LOGICAL NOT; 3.2.3 GEOMETRICAL OPERATIONS; 3.2.3.1 TRANSLATION; 3.2.3.2 SCALING; 3.2.3.3 ZOOMING ION; 3.2.3.4 LINEAR INTERPOLATION; 3.2.3.5 MIRROR OR REFLECTION OPERATION; 3.2.3.6 SHEARING; 3.2.3.7 ROTATION; 3.2.3.8 AFFINE TRANSFORM; 3.2.3.9 INVERSE TRANSFORMATION; 3.2.3.10 3D TRANSFORMS HNIQUES; 3.2.4 IMAGE INTERPOLATION TECHNIQUES; 3.2.4.1 DOWNSAMPLING; 3.2.4.2 UPSAMPLING; 3.2.5 SET OPERATIONS S; 3.2.6 STATISTICAL OPERATIONS PERATIONS; 3.2.7 CONVOLUTION AND CORRELATION OPERATIONS IONS 3.3 DATA STRUCTURES AND IMAGE PROCESSING APPLICATIONS DEVELOPMENT; 3.3.1 MATRIX; 3.3.2 CHAIN CODE; 3.3.3 REGION ADJACENCY GRAPH; 3.3.4 RELATIONAL STRUCTURES; 3.3.5 HIERARCHICAL DATA STRUCTURES; 3.3.5.1 PYRAMIDS; 3.3.5.2 QUADTREES; 3.3.6 APPLICATION DEVELOPMENT; 4.1 NEED FOR IMAGE TRANSFORMS; 4.1.1 INTRODUCTION TO FOURIER TRANSFORM; 4.1.2 DISCRETE FOURIER TRANSFORM; 4.1.3 FAST FOURIER TRANSFORM; 4.2 PROPERTIES OF FOURIER TRANSFORM; 4.2.1 SAMPLING THEOREM; 4.2.2 PARSEVAL'S THEOREM; 4.3 DISCRETE COSINE TRANSFORM; 4.4 DISCRETE SINE TRANSFORM; 4.5 WALSH TRANSFORM; 4.6 HADAMARD TRANSFORM; 4.7 HAAR TRANSFORM; 4.8 SLANT TRANSFORM; 4.9 SVD AND KL TRANSFORMS; 4.9.1 SINGULAR-VALUE DECOMPOSITION TRANSFORM; 4.9.2 KARHUNEN-LOEVE TRANSFORM OR HOTELLING TRANSFORM; 5.1 IMAGE QUALITY AND NEED FOR IMAGE ENHANCEMENT; 5.1.1 IMAGE QUALITY FACTORS; 5.1.2 IMAGE QUALITY ASSESSMENT TOOL; 5.1.3 IMAGE QUALITY METRICS; 5.2 IMAGE ENHANCEMENT POINT OPERATIONS; 5.2.1 LINEAR AND NON-LINEAR FUNCTIONS; 5.2.1.1 INVERSION (DIGITAL NEGATIVE OPERATION); 5.2.1.2 WHAT IS A NON-LINEAR OPERATOR?; 5.2.2 PIECEWISE LINEAR FUNCTIONS; 5.2.2.2 INTENSITY SLICING; 5.2.2.3 BIT-PLANE SLICING; 5.2.3 HISTOGRAM-BASED TECHNIQUES; 5.2.3.1 HISTOGRAM STRETCHING; 5.2.3.2 HISTOGRAM SLIDING; 5.2.3.3 HISTOGRAM EQUALIZATION; 5.2.3.4 HISTOGRAM SPECIFICATION; 5.2.3.5 LOCAL AND ADAPTIVE CONTRAST ENHANCEMENT; 5.3 SPATIAL FILTERING CONCEPTS; 5.3.1 IMAGE SMOOTHING SPATIAL FILTERS; 5.3.1.1 HOW TO DESIGN A DISCRETE GAUSSIAN MASK?; 5.3.1.2 NON-LINEAR FILTERS; 5.3.1.3 DIRECTIONAL SMOOTHING; 5.3.2 IMAGE SHARPENING SPATIAL FILTERS; 5.3.2.1 HIGH-BOOST FILTER; 5.4 FREQUENCY DOMAIN FILTERING; 5.4.1 IMAGE SMOOTHING IN FREQUENCY DOMAIN; 5.4.2 IMAGE SHARPENING IN FREQUENCY DOMAIN; 5.4.2.1 BAND-PASS FILTERING; 5.5 IMAGE DEGRADATION (RESTORATION) MODEL; 5.6 CATEGORIES OF IMAGE DEGRADATIONS; 5.6.1 NOISE MODELLING; 5.6.1.1 NOISE CATEGORIES BASED ON DISTRIBUTION; 5.6.1.2 NOISE CATEGORIES BASED ON CORRELATION; 5.6.1.3 NOISE CATEGORIES BASED ON NATURE; 5.6.1.4 NOISE CATEGORIES BASED ON SOURCE; 5.6.2 BLUR AND DISTORTIONS; 5.7 IMAGE RESTORATION IN THE PRESENCE OF NOISE ONLY; 5.7.1 MEAN FILTERS; 5.7.1.1 ARITHMETIC MEAN FILTER; 5.7.1.2 CONTRA-HARMONIC MEAN FILTER; 5.7.1.3 GEOMETRIC MEAN FILTER; 5.7.1.4 HARMONIC MEAN FILTER; 5.7.1.5 YP MEAN FILTER; 5.7.2 ORDER-STATISTICS FILTERS; 5.7.2.1 MEDIAN FILTER; 5.7.2.2 MAXIMUM FILTER; 5.7.2.3 MINIMUM FILTER; 5.7.2.4 MIDPOINT FILTER; 5.7.2.5 ALPHA-TRIMMED MEAN FILTER; 5.8 IMAGE RESTORATION TECHNIQUES; 5.8.1 CONSTRAINED METHOD; 5.8.2 UNCONSTRAINED METHOD; 5.8.2.1 WIENER FILTER; 5.8.2.2 CONSTRAINED LEAST SQUARE FILTER; 5.8.2.3 PSEUDO-INVERSE FILTER; 5.8.3 INTERACTIVE IMAGE RESTORATION; 5.8.4 BLIND IMAGE RESTORATION; 5.9 GEOMETRICAL TRANSFORMS FOR IMAGE RESTORATION; 6.1 IMAGE COMPRESSION MODEL; 6.2 COMPRESSION ALGORITHM AND ITS TYPES; 6.2.1 ENTROPY CODING; 6.2.2 PREDICTIVE CODING; 6.2.3 TRANSFORM CODING; 6.2.4 LAYERED CODING; 6.3 TYPES OF REDUNDANCY; 6.3.1 CODING REDUNDANCY; 6.3.2 INTER-PIXEL REDUNDANCY; 6.3.3 PSYCHOVISUAL REDUNDANCY; 6.3.4 CHROMATIC REDUNDANCY; 6.4 LOSSLESS COMPRESSION ALGORITHMS; 6.4.1 RUN-LENGTH CODING; 6.4.2 HUFFMAN CODING; 6.4.2.1 CANONICAL HUFFMAN CODE; 6.4.2.2 HUFFMAN DECODER; 6.4.2.3 CHARACTERISTICS OF HUFFMAN CODING; 6.4.4 BIT-PLANE CODING; 6.4.5 ARITHMETIC CODING; 6.4.6 DICTIONARY-BASED CODING; 6.4.6.1 ENCODING; 6.4.6.2 DECODING; 6.4.7 LOSSLESS PREDICTIVE CODING; 6.5 LOSSY COMPRESSION ALGORITHMS; 6.5.1. LOSSY PREDICTIVE CODING; 6.5.2 VECTOR QUANTIZATION; 6.5.2.1 CODEBOOK DESIGN; 6.5.2.2 GENERALIZED LLOYD ALGORITHM; 6.5.3 BLOCK TRANSFORM CODING; 6.5.3.1 SUB-IMAGE SELECTION; 6.5.3.2 TRANSFORM SELECTION; 6.5.3.3 BIT ALLOCATION; 6.5.3.4 ZONAL CODING; 6.5.3.5 THRESHOLD MARK; 6.6 IMAGE AND VIDEO COMPRESSION STANDARDS; 6.6.1 JPEG; 6.6.1.1 SEQUENTIAL DCT-BASED MODE (BASELINE ALGORITHM); 6.6.1.2 LOSSLESS MODE; 6.6.1.3 PROGRESSIVE ENCODING; 6.6.1.4 HIERARCHICAL MODE; 6.6.2 VIDEO COMPRESSION-MPEG; 6.6.2.1 MACROBLOCK FORMATION; 6.6.2.2 FRAME FORMATION; 6.6.2.3 GROUP OF PICTURES; 6.6.2.4 MOTION ESTIMATION; 6.6.2.5 AUDIO COMPRESSION; 6.6.3 MPEG VARIATIONS; 7.1 INTRODUCTION; 7.2 CLASSIFICATION OF IMAGE SEGMENTATION ALGORITHMS; 7.3 DETECTION OF DISCONTINUITIES AND LINE-DETECTION APPROACHES; 7.4 EDGE DETECTION; 7.4.1 STAGES IN EDGE DETECTION; 7.4.1.1 FILTERING; 7.4.1.2 DIFFERENTIATION; 7.4.1.3 LOCALIZATION; 7.4.2 TYPES OF EDGE DETECTORS; 7.4.3 FIRST-ORDER EDGE DETECTION OPERATORS; 7.4.3.1 ROBERTS OPERATOR; 7.4.3.2 PREWITT OPERATOR; 7.4.3.3 SOBEL OPERATOR; 7.4.3.4 TEMPLATE MATCHING MASKS; 7.4.4 SECOND-ORDER DERIVATIVE FILTERS; 7.4.4.1 LAPLACIAN OF GAUSSIAN (MARR-HILDRITH) OPERATOR; 7.4.4.2 COMBINED DETECTION; 7.4.4.3 DIFFERENCE OF GAUSSIAN FILTER; 7.4.4.4 CANNY EDGE DETECTION; 7.4.4.5 PATTERN FIT ALGORITHM; 7.4.5 EDGE OPERATOR PERFORMANCE; 7.4.6 EDGE-LINKING ALGORITHMS; 7.4.6.1 EDGE RELAXATION; 7.4.6.2 GRAPH THEORETIC ALGORITHMS; 7.5 HOUGH TRANSFORMS AND SHAPE DETECTION; 7.6 CORNER DETECTION; 7.7 PRINCIPLE OF THRESHOLDING; 7.7.1 GLOBAL THRESHOLDING ALGORITHMS; 7.7.2 MULTIPLE THRESHOLDING GORITHMS; 7.7.3 ADAPTIVE THRESHOLDING ALGORITHM; 7.7.4 OPTIMAL THRESHOLDING ALGORITHMS; 7.7.4.1 PARAMETRIC METHODS ALGORITHMS; 7.7.4.2 NON-PARAMETRIC METHODS; 7.8 PRINCIPLE OF REGION GROWING; 7.8.1 REGION-GROWING ALGORITHMG; 7.8.2 SPLIT-AND-MERGE ALGORITHM; 7.8.3 SPLIT-AND-MERGE ALGORITHM USING PYRAMID QUADTREE; 7.9 DYNAMIC SEGMENTATION APPROACHES G PYRAMID QUADTREE; 7.9.1 USE OF MOTION IN SEGMENTATION; 7.9.2 HYBRID EDGE/REGION APPROACHES; 7.10 VALIDATION OF SEGMENTATION ALGORITHMS; 8.1 COLOUR FUNDAMENTALS; 8.2 DEVICES FOR COLOUR IMAGING; 8.2.1 TYPES OF CAMERAS; 8.2.2 COLOUR MONITORS; 8.3 COLOUR IMAGE STORAGE AND PROCESSING; 8.4 COLOUR MODELS; 8.4.1 RGB COLOUR MODEL; 8.4.2 HSI COLOUR MODEL; 8.4.3 HSV COLOUR MODEL; 8.4.4 HLS COLOUR MODEL; 8.4.5 TV COLOUR MODELS; 8.4.6 PRINTING COLOUR MODELS; 8.5 COLOUR QUANTIZATION; 8.5.1 POPULARITY (OR POPULOSITY) ALGORITHM; 8.5.2 MEDIAN-CUT ALGORITHM; 8.5.3 OCTREE-BASED ALGORITHM; 8.6 PSEUDOCOLOUR IMAGE PROCESSING; 8.7 FULL COLOUR PROCESSING; 8.7.1 COLOUR TRANSFORMATIONS; 8.7.1.1 INTENSITY MODIFICATIONS; 8.7.1.2 COLOUR NEGATIVES; 8.7.1.3 COLOUR SLICING; 8.7.1.4 TONAL AND COLOUR CORRECTION; 8.7.1.5 HISTOGRAM PROCESSING; 8.7.2 IMAGE FILTERS FOR COLOUR IMAGES; 8.7.3 COLOUR IMAGE SEGMENTATION; 8.7.3.1 THRESHOLDING; 8.7.3.2 K-MEANS CLUSTERING TECHNIQUE; 8.7.3.3 RGB COLOUR SPACE SEGMENTATION; 8.7.4 COLOUR FEATURES; 9.1 NEED FOR MORPHOLOGICAL PROCESSING; 9.2 MORPHOLOGICAL OPERATORS; 9.2.1 ALGORITHM FOR DILATION AND EROSION; 9.2.2 OPENING AND CLOSING OPERATIONOSION; 9.3 HIT OR MISS TRANSFORM; 9.4 BASIC MORPHOLOGICAL ALGORITHMSN; 9.4.1 BOUNDARY EXTRACTION; 9.4.2 NOISE REMOVAL; 9.4.3 THINNING; 9.4.4 THICKENING; 9.4.5 CONVEX HULL; 9.4.6 SKELETONIZATION; 9.4.7 MEDIAL AXIS TRANSFORM AND DISTANCE TRANSFORM; 9.4.8 REGION FILLING; 9.4.9 EXTRACTION OF CONNECTED COMPONENT; 9.4.10 PRUNING; 9.5 GRAY SCALE MORPHOLOGY; 9.5.1 MORPHOLOGICAL GRADIENT; 9.5.2 TOP-HAT AND WELL TRANSFORMATIONS; 9.5.3 MORPHOLOGICAL RECONSTRUCTION; 9.5.4 WATERSHED ALGORITHM; 10.1 BOUNDARY AND REGION REPRESENTATION; 10.1.1 CHAIN CODE; 10.1.2 POLYGONAL APPROXIMATIONS; 10.1.3 SIGNATURES; 10.1.4 BENDING ENERGY; 10.1.5 STATISTICAL MOMENTS; 10.1.6 REGION REPRESENTATION; 10.2 BOUNDARY DESCRIPTIONS; 10.2.1 SIMPLE DESCRIPTORS; 10.2.2 SHAPE NUMBER; 10.2.3 FOURIER DESCRIPTORS; 10.2.4 RUN CODE; 10.2.5 PROJECTIONS; 10.2.6 CONCAVITY TREE; 10.3 COMPONENT LABELING; 10.3.1 RECURSIVE ALGORITHM; 10.3.2 SEQUENTIAL ALGORITHM; 10.4 BASICS OF REGIONAL DESCRIPTIONS; 10.4.1 HISTOGRAM (BRIGHTNESS) FEATURES; 10.4.2 SHAPE FEATURES; 10.4.3 SPATIAL MOMENTS; 10.4.4 CENTRAL AND INVARIANT MOMENTS; 10.4.4 CENTRAL AND INVARIANT MOMENTS; 10.4.5 TOPOLOGICAL FEATURES; 10.4.6 TRANSFORM FEATURES; 10.4.7 TEXTURE FEATURES; 10.4.8 SYNTACTIC AND STRUCTURAL FEATURES; 10.5 FEATURE SELECTION TECHNIQUES; 11.1 PATTERNS AND PATTERN CLASSES; 11.2 TEMPLATE MATCHING; 11.3 INTRODUCTION TO CLASSIFICATION; 11.4 DECISION- THEORETIC METHODS; 11.4.1 LINEAR DISCRIMINANT ANALYSIS; 11.4.2 BAYESIAN CLASSIFIERS; 11.4.3 NON PARAMETRIC STATISTICAL METHODS; 11.4.4 REGRESSION METHODS; 11.5 STRUCTURAL AND SYNTACTIC CLASSIFIER ALGORITHMS; 11.5.1 GRAMMAR ORIENTED RECOGNITION; 11.5.2 SHAPE MATCHING ALGORITHMS; 11.5.3 STRING MATCHING ALGORITHMS; 11.5.4 RULE BASED ALGORITHMS; 11.5.5 GRAPH ORIENTED APPROACHES; 11.6 EVALUATION OF CLASSIFIER ALGORITHMS; 11.7 BIOMETRICS CASE STUDIES; 11.7.1 FACE RECOGNITION; 11.7.2 IRIS RECOGNITION; 11.7.3 FINGERPRINT RECOGNITION; 11.7.4 SIGNATURE VERIFICATION; 11.8 CLUSTERING TECHNIQUES; 11.8.1 SIMILARITY MEASURES; 11.8.2 HIERARCHICAL METHODS; 11.8.3 K-MEANS ALGORITHM; 11.8.4 CLUSTER EVALUATION METHODS; 12.1 SOFT COMPUTING AND IMAGE PROCESSING; 12.1.1 FUZZY LOGIC; 12.1.2 GENETIC ALGORITHMS; 12.1.3 ARTIFICIAL NEURAL NETWORKS; 12.2 MULTIRESOLUTION ANALYSIS AND WAVELET TRANSFORMS; 12.2.1 WAVELET TRANSFORMS; 12.3 IMAGE SYNTHESIS; 12.3.1 IMAGE REGISTRATION TECHNIQUES; 12.3.2 IMAGE FUSION ALGORITHMS; 12.3.3 IMAGE VISUALIZATION; 12.3.4 IMAGE UNDERSTANDING AND STEREO IMAGING; 12.4 DIGITAL WATERMARKING; 12.5 IMAGE MINING AND CONTENT BASED RETRIEVAL SYSTEMS; 12.5.1 DATA MINING FOR IMAGE DATA; 12.5.2 CONTENT - BASED IMAGE RETRIEVAL SYSTEMS; APPENDIX A - A BRIEF INTRODUCTION TO MATLAB PROGRAMMING; APPENDIX B - IMAGEJ AND OTHER OPEN SOURCE ALTERNATIVES; APPENDIX C - LABORATORY EXERCISES