Verfügbarkeit: Vision with direction

Vision with direction: a systematic introduction to image processing and computer vision

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Bibliographische Detailangaben
1. Verfasser:	Bigun, Josef 1961- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin[u.a.] Springer 2006
Schlagworte:	Computer vision Image processing Maschinelles Sehen
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIII, 396 S. Ill., graph. Darst.
ISBN:	9783540273226 3540273220

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Datensatz im Suchindex

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adam_text	JOSEF BIGUN VISION WITH DIRECTION A SYSTEMATIC INTRODUCTIO N TO IMAGE PROCESSING AN D COMPUTER VISION WITH 146 FIGURES, INCLUDING 130 IN COLOR SPRI N G ER CONTENTS PART I HUMAN AND COMPUTER VISION 1 NEURONAL PATHWAYS OF VISION 3 1.1 OPTICS AND VISUAL FIELDS OF THE EYE 3 1.2 PHOTORECEPTORS OF THE RETINA 5 1.3 GANGLION CELLS OF THE RETINA AND RECEPTIVE FIELDS 7 1.4 THE OPTIC CHIASM 9 1.5 LATERAL GENICULATE NUCLEUS (LGN) 10 1.6 THE PRIMARY VISUAL CORTEX 11 1.7 SPATIAL DIRECTION, VELOCITY, AND FREQUENCY PREFERENCE 13 1.8 FACE RECOGNITION IN HUMANS 17 1.9 FURTHER READING 19 2 COLOR 21 2.1 LENS AND COLOR 21 2.2 RETINA AND COLOR 22 2.3 NEURONAL OPERATIONS AND COLOR 24 2.4 THE 1931 CIE CHROMATICITY DIAGRAM AND COLORIMETRY 26 2.5 RGB: RED, GREEN, BLUE COLOR SPACE 30 2.6 HSB: HUE, SATURATION, BRIGHTNESS COLOR SPACE 31 PART II LINEAR TOOLS OF VISION 3 DISCRETE IMAGES AND HUBERT SPACES 35 3.1 VECTOR SPACES 35 3.2 DISCRETE IMAGE TYPES, EXAMPLES 37 3.3 NORMS OF VECTORS AND DISTANCES BETWEEN POINTS 40 3.4 SCALAR PRODUCTS 44 3.5 ORTHOGONAL EXPANSION 46 3.6 TENSORS AS HUBERT SPACES 48 3.7 SCHWARTZ INEQUALITY, ANGLES AND SIMILARITY OF IMAGES 53 X CONTENTS 4 CONTINUOUS FUNCTIONS AND HUBERT SPACES 57 4.1 FUNCTIONS AS A VECTOR SPACE 57 4.2 ADDITION AND SCALING IN VECTOR SPACES OF FUNCTIONS 58 4.3 A SCALAR PRODUCT FOR VECTOR SPACES OF FUNCTIONS 59 4.4 ORTHOGONALITY 59 4.5 SCHWARTZ INEQUALITY FOR FUNCTIONS, ANGLES 60 5 FINITE EXTENSION OR PERIODIC FUNCTIONS-FOURIER COEFFICIENTS 61 5.1 THE FINITE EXTENSION FUNCTIONS VERSUS PERIODIC FUNCTIONS 61 5.2 FOURIER COEFFICIENTS (FC) 62 5.3 (PARSEVAL-PLANCHEREL) CONSERVATION OF THE SCALAR PRODUCT 65 5.4 HERMITIAN SYMMETRY OF THE FOURIER COEFFICIENTS 67 6 FOURIER TRANSFORM-INFINITE EXTENSION FUNCTIONS 69 6.1 THE FOURIER TRANSFORM (FT) 69 6.2 SAMPLED FUNCTIONS AND THE FOURIER TRANSFORM 72 6.3 DISCRETE FOURIER TRANSFORM (DFT) 79 6.4 CIRCULAR TOPOLOGY OF DFT 82 7 PROPERTIES OF THE FOURIER TRANSFORM 85 7.1 THE DIRAC DISTRIBUTION 85 7.2 CONSERVATION OF THE SCALAR PRODUCT 88 7.3 CONVOLUTION, FT, AND THE 5 90 7.4 CONVOLUTION WITH SEPARABLE FILTERS 94 7.5 POISSON SUMMATION FORMULA, THE COMB 95 7.6 HERMITIAN SYMMETRY OF THE FT 98 7.7 CORRESPONDENCES BETWEEN FC, DFT, AND FT 99 8 RECONSTRUCTION AND APPROXIMATION 103 8.1 CHARACTENSTIC AND INTERPOLATION FUNCTIONS IN N DIMENSIONS 103 8.2 SAMPLING BAND-PRESERVING LINEAR OPERATORS 109 8.3 SAMPLING BAND-ENLARGING OPERATORS 114 9 SCALES AND FREQUENCY CHANNELS 119 9.1 SPECTRAL EFFECTS OF DOWN- AND UP-SAMPLING 119 9.2 THE GAUSSIAN AS INTERPOLATOR 125 9.3 OPTIMIZING THE GAUSSIAN INTERPOLATOR 127 9.4 EXTENDING GAUSSIANS TO HIGHER DIMENSIONS 130 9.5 GAUSSIAN AND LAPLACIAN PYRAMIDS 134 9.6 DISCRETE LOCAL SPECTRUM, GABOR FILTERS 136 9.7 DESIGN OF GABOR FILTERS ON NONREGULAR GRIDS 142 9.8 FACE RECOGNITION BY GABOR FILTERS, AN APPLICATION 146 CONTENTS XI PART III VISION OF SINGLE DIRECTUM 10 DIRECTION IN 2D 153 10.1 LINEARLY SYMMETRIE IMAGES 153 10.2 REAL AND COMPLEX MOMENTS IN 2D 163 10.3 THE STRUCTURE TENSOR IN 2D 164 10.4 THE COMPLEX REPRESENTATION OF THE STRUCTURE TENSOR 168 10.5 LINEAR SYMMETRY TENSOR: DIRECTIONAL DOMINANCE 171 10.6 BALANCED DIRECTION TENSOR: DIRECTIONAL EQUILIBRIUM 171 10.7 DECOMPOSING THE COMPLEX STRUCTURE TENSOR 173 10.8 DECOMPOSING THE REAL-VALUED STRUCTURE TENSOR 175 10.9 CONVENTIONAL CORNERS AND BALANCED DIRECTIONS 176 10.10 THE TOTAL LEAST SQUARES DIRECTION AND TENSORS 177 10.11 DISCRETE STRUCTURE TENSOR BY DIRECT TENSOR SAMPLING 180 10.12 APPLICATION EXAMPLES 186 10.13 DISCRETE STRUCTURE TENSOR BY SPECTRUM SAMPLING (GABOR) 187 10.14 RELATIONSHIP OF THE TWO DISCRETE STRUCTURE TENSORS 196 10.15 HOUGH TRANSFORM OF LINES 199 10.16 THE STRUCTURE TENSOR AND THE HOUGH TRANSFORM 202 10.17 APPENDIX 205 11 DIRECTION IN CURVILINEAR COORDINATES 209 11.1 CURVILINEAR COORDINATES BY HARMONIE FUNCTIONS 209 11.2 LIE OPERATORS AND COORDINATE TRANSFORMATIONS 213 11.3 THE GENERALIZED STRUCTURE TENSOR (GST) 215 11.4 DISCRETE APPROXIMATION OF GST 221 11.5 THE GENERALIZED HOUGH TRANSFORM (GHT) 224 11.6 VOTING IN GST AND GHT 226 11.7 HARMONIE MONOMIALS 228 11.8 STEERABILITY OF HARMONIE MONOMIALS 230 11.9 SYMMETRY DERIVATIVES AND GAUSSIANS 231 11.10 DISCRETE GST FOR HARMONIE MONOMIALS 233 11.11 EXAMPLES OF GST APPLICATIONS 236 11.12 FURTHER READING 238 11.13 APPENDIX 240 12 DIRECTION IN IVD, MOTION AS DIRECTION 245 12.1 THE DIRECTION OF HYPERPLANES AND THE INERTIA TENSOR 245 12.2 THE DIRECTION OF LINES AND THE STRUCTURE TENSOR 249 12.3 THE DECOMPOSITION OF THE STRUCTURE TENSOR 252 12.4 BASIC CONCEPTS OF IMAGE MOTION 255 12.5 TRANSLATING LINES 258 12.6 TRANSLATING POINTS 259 12.7 DISCRETE STRUCTURE TENSOR BY TENSOR SAMPLING IN JVD 263 XII CONTENTS 12.8 AFFINE MOTION BY THE STRUCTURE TENSOR IN TD 267 12.9 MOTION ESTIMATION BY DIFFERENTIALS IN TWO FRAMES 270 12.10 MOTION ESTIMATION BY SPATIAL CORRELATION 272 12.11 FURTHER READING 274 12.12 APPENDIX 275 13 WORLD GEOMETRY BY DIRECTION IN N DIMENSIONS 277 13.1 CAMERA COORDINATES AND INTRINSIC PARAMETERS 277 13.2 WORLD COORDINATES 283 13.3 INTRINSIC AND EXTRINS K MATRICES BY CORRESPONDENCE 287 13.4 RECONSTRUCTING 3D BY STEREO, TRIANGULATION 293 13.5 SEARCHING FOR CORRESPONDING POINTS IN STEREO 300 13.6 THE FUNDAMENTAL MATRIX BY CORRESPONDENCE 305 13.7 FURTHER READING 307 13.8 APPENDIX 308 PART IV VISION OF MULTIPLE DIRECTIONS 14 GROUP DIRECTION AND IV-FOLDED SYMMETRY 311 14.1 GROUP DIRECTION OF REPEATING LINE PATTERNS 311 14.2 TEST IMAGES BY LOGARITHMIC SPIRALS 314 14.3 GROUP DIRECTION TENSOR BY COMPLEX MOMENTS 315 14.4 GROUP DIRECTION AND THE POWER SPECTRUM 318 14.5 DISCRETE GROUP DIRECTION TENSOR BY TENSOR SAMPLING 320 14.6 GROUP DIRECTION TENSORS AS TEXTURE FEATURES 324 14.7 FURTHER READING 326 PART V GROUPING, SEGMENTATION, AND REGION DESCRIPTION 15 REDUCING THE DIMENSION OF FEATURES 329 15.1 PRINCIPAL COMPONENT ANALYSIS (PCA) 329 15.2 PCA FOR RARE OBSERVATIONS IN LARGE DIMENSIONS 335 15.3 SINGULAR VALUE DECOMPOSITION (SVD) 338 16 GROUPING AND UNSUPERVISED REGION SEGREGATION 341 16.1 THE UNCERTAINTY PRINCIPLE AND SEGMENTATION 341 16.2 PYRAMID BUILDING 344 16.3 CLUSTERING IMAGE FEATURES-PERCEPTUAL GROUPING 345 16.4 FUZZY C-MEANS CLUSTERING ALGORITHM 347 16.5 ESTABLISHING THE SPATIAL CONTINUITY 348 16.6 BOUNDARY REFINEMENT BY ORIENTED BUTTERFLY FILTERS 351 16.7 TEXTURE GROUPING AND BOUNDARY ESTIMATION INTEGRATION 354 16.8 FURTHER READING 35G CONTENT S XII I 17 REGION AND BOUNDARY DESCRIPTORS 359 17.1 MORPHOLOGICAL FILTERING OF REGIONS 359 17.2 CONNECTED COMPONENT LABELLING 364 17.3 ELEMENTARY SHAPE FEATURES 366 17.4 MOMENL-BASED DESCRIPTION OF SHAPE 368 17.5 FOURIER DESCRIPTORS AND SHAPE OF A REGION 371 18 CONCLUDING REMARKS 377 REFERENCES 379 INDEX 391
adam_txt	JOSEF BIGUN VISION WITH DIRECTION A SYSTEMATIC INTRODUCTIO N TO IMAGE PROCESSING AN D COMPUTER VISION WITH 146 FIGURES, INCLUDING 130 IN COLOR SPRI N G ER CONTENTS PART I HUMAN AND COMPUTER VISION 1 NEURONAL PATHWAYS OF VISION 3 1.1 OPTICS AND VISUAL FIELDS OF THE EYE 3 1.2 PHOTORECEPTORS OF THE RETINA 5 1.3 GANGLION CELLS OF THE RETINA AND RECEPTIVE FIELDS 7 1.4 THE OPTIC CHIASM 9 1.5 LATERAL GENICULATE NUCLEUS (LGN) 10 1.6 THE PRIMARY VISUAL CORTEX 11 1.7 SPATIAL DIRECTION, VELOCITY, AND FREQUENCY PREFERENCE 13 1.8 FACE RECOGNITION IN HUMANS 17 1.9 FURTHER READING 19 2 COLOR 21 2.1 LENS AND COLOR 21 2.2 RETINA AND COLOR 22 2.3 NEURONAL OPERATIONS AND COLOR 24 2.4 THE 1931 CIE CHROMATICITY DIAGRAM AND COLORIMETRY 26 2.5 RGB: RED, GREEN, BLUE COLOR SPACE 30 2.6 HSB: HUE, SATURATION, BRIGHTNESS COLOR SPACE 31 PART II LINEAR TOOLS OF VISION 3 DISCRETE IMAGES AND HUBERT SPACES 35 3.1 VECTOR SPACES 35 3.2 DISCRETE IMAGE TYPES, EXAMPLES 37 3.3 NORMS OF VECTORS AND DISTANCES BETWEEN POINTS 40 3.4 SCALAR PRODUCTS 44 3.5 ORTHOGONAL EXPANSION 46 3.6 TENSORS AS HUBERT SPACES 48 3.7 SCHWARTZ INEQUALITY, ANGLES AND SIMILARITY OF IMAGES 53 X CONTENTS 4 CONTINUOUS FUNCTIONS AND HUBERT SPACES 57 4.1 FUNCTIONS AS A VECTOR SPACE 57 4.2 ADDITION AND SCALING IN VECTOR SPACES OF FUNCTIONS 58 4.3 A SCALAR PRODUCT FOR VECTOR SPACES OF FUNCTIONS 59 4.4 ORTHOGONALITY 59 4.5 SCHWARTZ INEQUALITY FOR FUNCTIONS, ANGLES 60 5 FINITE EXTENSION OR PERIODIC FUNCTIONS-FOURIER COEFFICIENTS 61 5.1 THE FINITE EXTENSION FUNCTIONS VERSUS PERIODIC FUNCTIONS 61 5.2 FOURIER COEFFICIENTS (FC) 62 5.3 (PARSEVAL-PLANCHEREL) CONSERVATION OF THE SCALAR PRODUCT 65 5.4 HERMITIAN SYMMETRY OF THE FOURIER COEFFICIENTS 67 6 FOURIER TRANSFORM-INFINITE EXTENSION FUNCTIONS 69 6.1 THE FOURIER TRANSFORM (FT) 69 6.2 SAMPLED FUNCTIONS AND THE FOURIER TRANSFORM 72 6.3 DISCRETE FOURIER TRANSFORM (DFT) 79 6.4 CIRCULAR TOPOLOGY OF DFT 82 7 PROPERTIES OF THE FOURIER TRANSFORM 85 7.1 THE DIRAC DISTRIBUTION 85 7.2 CONSERVATION OF THE SCALAR PRODUCT 88 7.3 CONVOLUTION, FT, AND THE 5 90 7.4 CONVOLUTION WITH SEPARABLE FILTERS 94 7.5 POISSON SUMMATION FORMULA, THE COMB 95 7.6 HERMITIAN SYMMETRY OF THE FT 98 7.7 CORRESPONDENCES BETWEEN FC, DFT, AND FT 99 8 RECONSTRUCTION AND APPROXIMATION 103 8.1 CHARACTENSTIC AND INTERPOLATION FUNCTIONS IN N DIMENSIONS 103 8.2 SAMPLING BAND-PRESERVING LINEAR OPERATORS 109 8.3 SAMPLING BAND-ENLARGING OPERATORS 114 9 SCALES AND FREQUENCY CHANNELS 119 9.1 SPECTRAL EFFECTS OF DOWN- AND UP-SAMPLING 119 9.2 THE GAUSSIAN AS INTERPOLATOR 125 9.3 OPTIMIZING THE GAUSSIAN INTERPOLATOR 127 9.4 EXTENDING GAUSSIANS TO HIGHER DIMENSIONS 130 9.5 GAUSSIAN AND LAPLACIAN PYRAMIDS 134 9.6 DISCRETE LOCAL SPECTRUM, GABOR FILTERS 136 9.7 DESIGN OF GABOR FILTERS ON NONREGULAR GRIDS 142 9.8 FACE RECOGNITION BY GABOR FILTERS, AN APPLICATION 146 CONTENTS XI PART III VISION OF SINGLE DIRECTUM 10 DIRECTION IN 2D 153 10.1 LINEARLY SYMMETRIE IMAGES 153 10.2 REAL AND COMPLEX MOMENTS IN 2D 163 10.3 THE STRUCTURE TENSOR IN 2D 164 10.4 THE COMPLEX REPRESENTATION OF THE STRUCTURE TENSOR 168 10.5 LINEAR SYMMETRY TENSOR: DIRECTIONAL DOMINANCE 171 10.6 BALANCED DIRECTION TENSOR: DIRECTIONAL EQUILIBRIUM 171 10.7 DECOMPOSING THE COMPLEX STRUCTURE TENSOR 173 10.8 DECOMPOSING THE REAL-VALUED STRUCTURE TENSOR 175 10.9 CONVENTIONAL CORNERS AND BALANCED DIRECTIONS 176 10.10 THE TOTAL LEAST SQUARES DIRECTION AND TENSORS 177 10.11 DISCRETE STRUCTURE TENSOR BY DIRECT TENSOR SAMPLING 180 10.12 APPLICATION EXAMPLES 186 10.13 DISCRETE STRUCTURE TENSOR BY SPECTRUM SAMPLING (GABOR) 187 10.14 RELATIONSHIP OF THE TWO DISCRETE STRUCTURE TENSORS 196 10.15 HOUGH TRANSFORM OF LINES 199 10.16 THE STRUCTURE TENSOR AND THE HOUGH TRANSFORM 202 10.17 APPENDIX 205 11 DIRECTION IN CURVILINEAR COORDINATES 209 11.1 CURVILINEAR COORDINATES BY HARMONIE FUNCTIONS 209 11.2 LIE OPERATORS AND COORDINATE TRANSFORMATIONS 213 11.3 THE GENERALIZED STRUCTURE TENSOR (GST) 215 11.4 DISCRETE APPROXIMATION OF GST 221 11.5 THE GENERALIZED HOUGH TRANSFORM (GHT) 224 11.6 VOTING IN GST AND GHT 226 11.7 HARMONIE MONOMIALS 228 11.8 "STEERABILITY" OF HARMONIE MONOMIALS 230 11.9 SYMMETRY DERIVATIVES AND GAUSSIANS 231 11.10 DISCRETE GST FOR HARMONIE MONOMIALS 233 11.11 EXAMPLES OF GST APPLICATIONS 236 11.12 FURTHER READING 238 11.13 APPENDIX 240 12 DIRECTION IN IVD, MOTION AS DIRECTION 245 12.1 THE DIRECTION OF HYPERPLANES AND THE INERTIA TENSOR 245 12.2 THE DIRECTION OF LINES AND THE STRUCTURE TENSOR 249 12.3 THE DECOMPOSITION OF THE STRUCTURE TENSOR 252 12.4 BASIC CONCEPTS OF IMAGE MOTION 255 12.5 TRANSLATING LINES 258 12.6 TRANSLATING POINTS 259 12.7 DISCRETE STRUCTURE TENSOR BY TENSOR SAMPLING IN JVD 263 XII CONTENTS 12.8 AFFINE MOTION BY THE STRUCTURE TENSOR IN TD 267 12.9 MOTION ESTIMATION BY DIFFERENTIALS IN TWO FRAMES 270 12.10 MOTION ESTIMATION BY SPATIAL CORRELATION 272 12.11 FURTHER READING 274 12.12 APPENDIX 275 13 WORLD GEOMETRY BY DIRECTION IN N DIMENSIONS 277 13.1 CAMERA COORDINATES AND INTRINSIC PARAMETERS 277 13.2 WORLD COORDINATES 283 13.3 INTRINSIC AND EXTRINS K MATRICES BY CORRESPONDENCE 287 13.4 RECONSTRUCTING 3D BY STEREO, TRIANGULATION 293 13.5 SEARCHING FOR CORRESPONDING POINTS IN STEREO 300 13.6 THE FUNDAMENTAL MATRIX BY CORRESPONDENCE 305 13.7 FURTHER READING 307 13.8 APPENDIX 308 PART IV VISION OF MULTIPLE DIRECTIONS 14 GROUP DIRECTION AND IV-FOLDED SYMMETRY 311 14.1 GROUP DIRECTION OF REPEATING LINE PATTERNS 311 14.2 TEST IMAGES BY LOGARITHMIC SPIRALS 314 14.3 GROUP DIRECTION TENSOR BY COMPLEX MOMENTS 315 14.4 GROUP DIRECTION AND THE POWER SPECTRUM 318 14.5 DISCRETE GROUP DIRECTION TENSOR BY TENSOR SAMPLING 320 14.6 GROUP DIRECTION TENSORS AS TEXTURE FEATURES 324 14.7 FURTHER READING 326 PART V GROUPING, SEGMENTATION, AND REGION DESCRIPTION 15 REDUCING THE DIMENSION OF FEATURES 329 15.1 PRINCIPAL COMPONENT ANALYSIS (PCA) 329 15.2 PCA FOR RARE OBSERVATIONS IN LARGE DIMENSIONS 335 15.3 SINGULAR VALUE DECOMPOSITION (SVD) 338 16 GROUPING AND UNSUPERVISED REGION SEGREGATION 341 16.1 THE UNCERTAINTY PRINCIPLE AND SEGMENTATION 341 16.2 PYRAMID BUILDING 344 16.3 CLUSTERING IMAGE FEATURES-PERCEPTUAL GROUPING 345 16.4 FUZZY C-MEANS CLUSTERING ALGORITHM 347 16.5 ESTABLISHING THE SPATIAL CONTINUITY 348 16.6 BOUNDARY REFINEMENT BY ORIENTED BUTTERFLY FILTERS 351 16.7 TEXTURE GROUPING AND BOUNDARY ESTIMATION INTEGRATION 354 16.8 FURTHER READING 35G CONTENT S XII I 17 REGION AND BOUNDARY DESCRIPTORS 359 17.1 MORPHOLOGICAL FILTERING OF REGIONS 359 17.2 CONNECTED COMPONENT LABELLING 364 17.3 ELEMENTARY SHAPE FEATURES 366 17.4 MOMENL-BASED DESCRIPTION OF SHAPE 368 17.5 FOURIER DESCRIPTORS AND SHAPE OF A REGION 371 18 CONCLUDING REMARKS 377 REFERENCES 379 INDEX 391
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spellingShingle	Bigun, Josef 1961- Vision with direction a systematic introduction to image processing and computer vision Computer vision Image processing Maschinelles Sehen (DE-588)4129594-8 gnd
subject_GND	(DE-588)4129594-8
title	Vision with direction a systematic introduction to image processing and computer vision
title_auth	Vision with direction a systematic introduction to image processing and computer vision
title_exact_search	Vision with direction a systematic introduction to image processing and computer vision
title_exact_search_txtP	Vision with direction a systematic introduction to image processing and computer vision
title_full	Vision with direction a systematic introduction to image processing and computer vision Josef Bigun
title_fullStr	Vision with direction a systematic introduction to image processing and computer vision Josef Bigun
title_full_unstemmed	Vision with direction a systematic introduction to image processing and computer vision Josef Bigun
title_short	Vision with direction
title_sort	vision with direction a systematic introduction to image processing and computer vision
title_sub	a systematic introduction to image processing and computer vision
topic	Computer vision Image processing Maschinelles Sehen (DE-588)4129594-8 gnd
topic_facet	Computer vision Image processing Maschinelles Sehen
url	http://deposit.dnb.de/cgi-bin/dokserv?id=2668736&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014929272&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT bigunjosef visionwithdirectionasystematicintroductiontoimageprocessingandcomputervision

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