EBOOK - PLC Programming Methods and Applications - Pratt, William K


EBOOK - Phương pháp và ứng dụng lập trình PLC - Pratt, William K

PART 1 CONTINUOUS IMAGE CHARACTERIZATION 1
1 Continuous Image Mathematical Characterization 3
1.1 Image Representation, 3
1.2 Two-Dimensional Systems, 5
1.3 Two-Dimensional Fourier Transform, 10
1.4 Image Stochastic Characterization, 15
2 Psychophysical Vision Properties 23
2.1 Light Perception, 23
2.2 Eye Physiology, 26
2.3 Visual Phenomena, 29
2.4 Monochrome Vision Model, 33
2.5 Color Vision Model, 39
3 Photometry and Colorimetry 45
3.1 Photometry, 45
3.2 Color Matching, 49
3.3 Colorimetry Concepts, 54
3.4 Tristimulus Value Transformation, 61
3.5 Color Spaces, 63

PART 2 DIGITAL IMAGE CHARACTERIZATION 89
4 Image Sampling and Reconstruction 91
4.1 Image Sampling and Reconstruction Concepts, 91
4.2 Image Sampling Systems, 99
4.3 Image Reconstruction Systems, 110
5 Discrete Image Mathematical Representation 121
5.1 Vector-Space Image Representation, 121
5.2 Generalized Two-Dimensional Linear Operator, 123
5.3 Image Statistical Characterization, 127
5.4 Image Probability Density Models, 132
5.5 Linear Operator Statistical Representation, 136
6 Image Quantization 141
6.1 Scalar Quantization, 141
6.2 Processing Quantized Variables, 147
6.3 Monochrome and Color Image Quantization, 150

PART 3 DISCRETE TWO-DIMENSIONAL LINEAR PROCESSING 159
7 Superposition and Convolution 161
7.1 Finite-Area Superposition and Convolution, 161
7.2 Sampled Image Superposition and Convolution, 170
7.3 Circulant Superposition and Convolution, 177
7.4 Superposition and Convolution Operator Relationships, 180
8 Unitary Transforms 185
8.1 General Unitary Transforms, 185
8.2 Fourier Transform, 189
8.3 Cosine, Sine, and Hartley Transforms, 195
8.4 Hadamard, Haar, and Daubechies Transforms, 200
8.5 Karhunen–Loeve Transform, 207
9 Linear Processing Techniques 213
9.1 Transform Domain Processing, 213
9.2 Transform Domain Superposition, 216
9.3 Fast Fourier Transform Convolution, 221
9.4 Fourier Transform Filtering, 229
9.5 Small Generating Kernel Convolution, 236

PART 4 IMAGE IMPROVEMENT 241
10 Image Enhancement 243
10.1 Contrast Manipulation, 243
10.2 Histogram Modification, 253
10.3 Noise Cleaning, 261
10.4 Edge Crispening, 278
10.5 Color Image Enhancement, 284
10.6 Multispectral Image Enhancement, 289
11 Image Restoration Models 297
11.1 General Image Restoration Models, 297
11.2 Optical Systems Models, 300
11.3 Photographic Process Models, 304
11.4 Discrete Image Restoration Models, 312
12 Point and Spatial Image Restoration Techniques 319
12.1 Sensor and Display Point Nonlinearity Correction, 319
12.2 Continuous Image Spatial Filtering Restoration, 325
12.3 Pseudoinverse Spatial Image Restoration, 335
12.4 SVD Pseudoinverse Spatial Image Restoration, 349
12.5 Statistical Estimation Spatial Image Restoration, 355
12.6 Constrained Image Restoration, 358
12.7 Blind Image Restoration, 363
13 Geometrical Image Modification 371
13.1 Translation, Minification, Magnification, and Rotation, 371
13.2 Spatial Warping, 382
13.3 Perspective Transformation, 386
13.4 Camera Imaging Model, 389
13.5 Geometrical Image Resampling, 393

PART 5 IMAGE ANALYSIS 399
14 Morphological Image Processing 401
14.1 Binary Image Connectivity, 401
14.2 Binary Image Hit or Miss Transformations, 404
14.3 Binary Image Shrinking, Thinning, Skeletonizing, and Thickening, 411
9.3 Fast Fourier Transform Convolution, 221
9.4 Fourier Transform Filtering, 229
9.5 Small Generating Kernel Convolution, 236

PART 4 IMAGE IMPROVEMENT 241
10 Image Enhancement 243
10.1 Contrast Manipulation, 243
10.2 Histogram Modification, 253
10.3 Noise Cleaning, 261
10.4 Edge Crispening, 278
10.5 Color Image Enhancement, 284
10.6 Multispectral Image Enhancement, 289
11 Image Restoration Models 297
11.1 General Image Restoration Models, 297
11.2 Optical Systems Models, 300
11.3 Photographic Process Models, 304
11.4 Discrete Image Restoration Models, 312
12 Point and Spatial Image Restoration Techniques 319
12.1 Sensor and Display Point Nonlinearity Correction, 319
12.2 Continuous Image Spatial Filtering Restoration, 325
12.3 Pseudoinverse Spatial Image Restoration, 335
12.4 SVD Pseudoinverse Spatial Image Restoration, 349
12.5 Statistical Estimation Spatial Image Restoration, 355
12.6 Constrained Image Restoration, 358
12.7 Blind Image Restoration, 363
13 Geometrical Image Modification 371
13.1 Translation, Minification, Magnification, and Rotation, 371
13.2 Spatial Warping, 382
13.3 Perspective Transformation, 386
13.4 Camera Imaging Model, 389
13.5 Geometrical Image Resampling, 393

PART 5 IMAGE ANALYSIS 399
14 Morphological Image Processing 401
14.1 Binary Image Connectivity, 401
14.2 Binary Image Hit or Miss Transformations, 404
14.3 Binary Image Shrinking, Thinning, Skeletonizing, and Thickening, 411
14.4 Binary Image Generalized Dilation and Erosion, 422
14.5 Binary Image Close and Open Operations, 433
14.6 Gray Scale Image Morphological Operations, 435
15 Edge Detection 15.1 Edge, Line, and Spot Models, 443
15.2 First-Order Derivative Edge Detection, 448
15.3 Second-Order Derivative Edge Detection, 469
15.4 Edge-Fitting Edge Detection, 482
15.5 Luminance Edge Detector Performance, 485
15.6 Color Edge Detection, 499
15.7 Line and Spot Detection, 499
16 Image Feature Extraction
16.1 Image Feature Evaluation, 509
16.2 Amplitude Features, 511
16.3 Transform Coefficient Features, 516
16.4 Texture Definition, 519
16.5 Visual Texture Discrimination, 521
16.6 Texture Features, 529
17 Image Segmentation 17.1 Amplitude Segmentation Methods, 552
17.2 Clustering Segmentation Methods, 560
17.3 Region Segmentation Methods, 562
17.4 Boundary Detection, 566
17.5 Texture Segmentation, 580
17.6 Segment Labeling, 581
18 Shape Analysis 18.1 Topological Attributes, 589
18.2 Distance, Perimeter, and Area Measurements, 591
18.3 Spatial Moments, 597
18.4 Shape Orientation Descriptors, 607
18.5 Fourier Descriptors, 609
19 Image Detection and Registration 19.1 Template Matching, 613
19.2 Matched Filtering of Continuous Images, 616
19.3 Matched Filtering of Discrete Images, 623
19.4 Image Registration, 625

PART 6 IMAGE PROCESSING SOFTWARE 641
20 PIKS Image Processing Software 643
20.1 PIKS Functional Overview, 643
20.2 PIKS Core Overview, 663
21 PIKS Image Processing Programming Exercises 673
21.1 Program Generation Exercises, 674
21.2 Image Manipulation Exercises, 675
21.3 Colour Space Exercises, 676
21.4 Region-of-Interest Exercises, 678
21.5 Image Measurement Exercises, 679
21.6 Quantization Exercises, 680
21.7 Convolution Exercises, 681
21.8 Unitary Transform Exercises, 682
21.9 Linear Processing Exercises, 682
21.10 Image Enhancement Exercises, 683
21.11 Image Restoration Models Exercises, 685
21.12 Image Restoration Exercises, 686
21.13 Geometrical Image Modification Exercises, 687
21.14 Morphological Image Processing Exercises, 687
21.15 Edge Detection Exercises, 689
21.16 Image Feature Extration Exercises, 690
21.17 Image Segmentation Exercises, 691
21.18 Shape Analysis Exercises, 691
21.19 Image Detection and Registration Exercises, 692

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EBOOK - Phương pháp và ứng dụng lập trình PLC - Pratt, William K

PART 1 CONTINUOUS IMAGE CHARACTERIZATION 1
1 Continuous Image Mathematical Characterization 3
1.1 Image Representation, 3
1.2 Two-Dimensional Systems, 5
1.3 Two-Dimensional Fourier Transform, 10
1.4 Image Stochastic Characterization, 15
2 Psychophysical Vision Properties 23
2.1 Light Perception, 23
2.2 Eye Physiology, 26
2.3 Visual Phenomena, 29
2.4 Monochrome Vision Model, 33
2.5 Color Vision Model, 39
3 Photometry and Colorimetry 45
3.1 Photometry, 45
3.2 Color Matching, 49
3.3 Colorimetry Concepts, 54
3.4 Tristimulus Value Transformation, 61
3.5 Color Spaces, 63

PART 2 DIGITAL IMAGE CHARACTERIZATION 89
4 Image Sampling and Reconstruction 91
4.1 Image Sampling and Reconstruction Concepts, 91
4.2 Image Sampling Systems, 99
4.3 Image Reconstruction Systems, 110
5 Discrete Image Mathematical Representation 121
5.1 Vector-Space Image Representation, 121
5.2 Generalized Two-Dimensional Linear Operator, 123
5.3 Image Statistical Characterization, 127
5.4 Image Probability Density Models, 132
5.5 Linear Operator Statistical Representation, 136
6 Image Quantization 141
6.1 Scalar Quantization, 141
6.2 Processing Quantized Variables, 147
6.3 Monochrome and Color Image Quantization, 150

PART 3 DISCRETE TWO-DIMENSIONAL LINEAR PROCESSING 159
7 Superposition and Convolution 161
7.1 Finite-Area Superposition and Convolution, 161
7.2 Sampled Image Superposition and Convolution, 170
7.3 Circulant Superposition and Convolution, 177
7.4 Superposition and Convolution Operator Relationships, 180
8 Unitary Transforms 185
8.1 General Unitary Transforms, 185
8.2 Fourier Transform, 189
8.3 Cosine, Sine, and Hartley Transforms, 195
8.4 Hadamard, Haar, and Daubechies Transforms, 200
8.5 Karhunen–Loeve Transform, 207
9 Linear Processing Techniques 213
9.1 Transform Domain Processing, 213
9.2 Transform Domain Superposition, 216
9.3 Fast Fourier Transform Convolution, 221
9.4 Fourier Transform Filtering, 229
9.5 Small Generating Kernel Convolution, 236

PART 4 IMAGE IMPROVEMENT 241
10 Image Enhancement 243
10.1 Contrast Manipulation, 243
10.2 Histogram Modification, 253
10.3 Noise Cleaning, 261
10.4 Edge Crispening, 278
10.5 Color Image Enhancement, 284
10.6 Multispectral Image Enhancement, 289
11 Image Restoration Models 297
11.1 General Image Restoration Models, 297
11.2 Optical Systems Models, 300
11.3 Photographic Process Models, 304
11.4 Discrete Image Restoration Models, 312
12 Point and Spatial Image Restoration Techniques 319
12.1 Sensor and Display Point Nonlinearity Correction, 319
12.2 Continuous Image Spatial Filtering Restoration, 325
12.3 Pseudoinverse Spatial Image Restoration, 335
12.4 SVD Pseudoinverse Spatial Image Restoration, 349
12.5 Statistical Estimation Spatial Image Restoration, 355
12.6 Constrained Image Restoration, 358
12.7 Blind Image Restoration, 363
13 Geometrical Image Modification 371
13.1 Translation, Minification, Magnification, and Rotation, 371
13.2 Spatial Warping, 382
13.3 Perspective Transformation, 386
13.4 Camera Imaging Model, 389
13.5 Geometrical Image Resampling, 393

PART 5 IMAGE ANALYSIS 399
14 Morphological Image Processing 401
14.1 Binary Image Connectivity, 401
14.2 Binary Image Hit or Miss Transformations, 404
14.3 Binary Image Shrinking, Thinning, Skeletonizing, and Thickening, 411
9.3 Fast Fourier Transform Convolution, 221
9.4 Fourier Transform Filtering, 229
9.5 Small Generating Kernel Convolution, 236

PART 4 IMAGE IMPROVEMENT 241
10 Image Enhancement 243
10.1 Contrast Manipulation, 243
10.2 Histogram Modification, 253
10.3 Noise Cleaning, 261
10.4 Edge Crispening, 278
10.5 Color Image Enhancement, 284
10.6 Multispectral Image Enhancement, 289
11 Image Restoration Models 297
11.1 General Image Restoration Models, 297
11.2 Optical Systems Models, 300
11.3 Photographic Process Models, 304
11.4 Discrete Image Restoration Models, 312
12 Point and Spatial Image Restoration Techniques 319
12.1 Sensor and Display Point Nonlinearity Correction, 319
12.2 Continuous Image Spatial Filtering Restoration, 325
12.3 Pseudoinverse Spatial Image Restoration, 335
12.4 SVD Pseudoinverse Spatial Image Restoration, 349
12.5 Statistical Estimation Spatial Image Restoration, 355
12.6 Constrained Image Restoration, 358
12.7 Blind Image Restoration, 363
13 Geometrical Image Modification 371
13.1 Translation, Minification, Magnification, and Rotation, 371
13.2 Spatial Warping, 382
13.3 Perspective Transformation, 386
13.4 Camera Imaging Model, 389
13.5 Geometrical Image Resampling, 393

PART 5 IMAGE ANALYSIS 399
14 Morphological Image Processing 401
14.1 Binary Image Connectivity, 401
14.2 Binary Image Hit or Miss Transformations, 404
14.3 Binary Image Shrinking, Thinning, Skeletonizing, and Thickening, 411
14.4 Binary Image Generalized Dilation and Erosion, 422
14.5 Binary Image Close and Open Operations, 433
14.6 Gray Scale Image Morphological Operations, 435
15 Edge Detection 15.1 Edge, Line, and Spot Models, 443
15.2 First-Order Derivative Edge Detection, 448
15.3 Second-Order Derivative Edge Detection, 469
15.4 Edge-Fitting Edge Detection, 482
15.5 Luminance Edge Detector Performance, 485
15.6 Color Edge Detection, 499
15.7 Line and Spot Detection, 499
16 Image Feature Extraction
16.1 Image Feature Evaluation, 509
16.2 Amplitude Features, 511
16.3 Transform Coefficient Features, 516
16.4 Texture Definition, 519
16.5 Visual Texture Discrimination, 521
16.6 Texture Features, 529
17 Image Segmentation 17.1 Amplitude Segmentation Methods, 552
17.2 Clustering Segmentation Methods, 560
17.3 Region Segmentation Methods, 562
17.4 Boundary Detection, 566
17.5 Texture Segmentation, 580
17.6 Segment Labeling, 581
18 Shape Analysis 18.1 Topological Attributes, 589
18.2 Distance, Perimeter, and Area Measurements, 591
18.3 Spatial Moments, 597
18.4 Shape Orientation Descriptors, 607
18.5 Fourier Descriptors, 609
19 Image Detection and Registration 19.1 Template Matching, 613
19.2 Matched Filtering of Continuous Images, 616
19.3 Matched Filtering of Discrete Images, 623
19.4 Image Registration, 625

PART 6 IMAGE PROCESSING SOFTWARE 641
20 PIKS Image Processing Software 643
20.1 PIKS Functional Overview, 643
20.2 PIKS Core Overview, 663
21 PIKS Image Processing Programming Exercises 673
21.1 Program Generation Exercises, 674
21.2 Image Manipulation Exercises, 675
21.3 Colour Space Exercises, 676
21.4 Region-of-Interest Exercises, 678
21.5 Image Measurement Exercises, 679
21.6 Quantization Exercises, 680
21.7 Convolution Exercises, 681
21.8 Unitary Transform Exercises, 682
21.9 Linear Processing Exercises, 682
21.10 Image Enhancement Exercises, 683
21.11 Image Restoration Models Exercises, 685
21.12 Image Restoration Exercises, 686
21.13 Geometrical Image Modification Exercises, 687
21.14 Morphological Image Processing Exercises, 687
21.15 Edge Detection Exercises, 689
21.16 Image Feature Extration Exercises, 690
21.17 Image Segmentation Exercises, 691
21.18 Shape Analysis Exercises, 691
21.19 Image Detection and Registration Exercises, 692

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