Basic color terms : their universality and evolution / <by> Brent Berlin and Paul Kay |
Autore | Berlin, Brent |
Pubbl/distr/stampa | Berkeley : University of California Press, 1969 |
Descrizione fisica | XI, 178 p : ill. ; 24 cm |
Disciplina | 152.145 |
Altri autori (Persone) | Kay, Paul |
Soggetto non controllato | Colori - Terminologia |
ISBN | 0520014421 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-990008520280403321 |
Berlin, Brent
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Berkeley : University of California Press, 1969 | ||
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Lo trovi qui: Univ. Federico II | ||
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Color constancy [[electronic resource] /] / Marc Ebner |
Autore | Ebner Marc |
Pubbl/distr/stampa | Chichester, : John Wiley, c2007 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina | 152.145 |
Collana | Wiley-IS&T series in imaging science and technology |
Soggetto topico | Color vision |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-85590-8
9786610855902 0-470-51049-8 0-470-51048-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Constancy; Contents; Series Preface; Preface; 1 Introduction; 1.1 What is Color Constancy?; 1.2 Classic Experiments; 1.3 Overview; 2 The Visual System; 2.1 Eye and Retina; 2.2 Visual Cortex; 2.3 On the Function of the Color Opponent Cells; 2.4 Lightness; 2.5 Color Perception Correlates with Integrated Reflectances; 2.6 Involvement of the Visual Cortex in Color Constancy; 3 Theory of Color Image Formation; 3.1 Analog Photography; 3.2 Digital Photography; 3.3 Theory of Radiometry; 3.4 Reflectance Models; 3.5 Illuminants; 3.6 Sensor Response; 3.7 Finite Set of Basis Functions
4 Color Reproduction4.1 Additive and Subtractive Color Generation; 4.2 Color Gamut; 4.3 Computing Primary Intensities; 4.4 CIE XYZ Color Space; 4.5 Gamma Correction; 4.6 Von Kries Coefficients and Sensor Sharpening; 5 Color Spaces; 5.1 RGB Color Space; 5.2 sRGB; 5.3 CIE L*u*v*Color Space; 5.4 CIE L*a*b*Color Space; 5.5 CMY Color Space; 5.6 HSI Color Space; 5.7 HSV Color Space; 5.8 Analog and Digital Video Color Spaces; 6 Algorithms for Color Constancy under Uniform Illumination; 6.1 White Patch Retinex; 6.2 The Gray World Assumption; 6.3 Variant of Horn's Algorithm 6.4 Gamut-constraint Methods6.5 Color in Perspective; 6.6 Color Cluster Rotation; 6.7 Comprehensive Color Normalization; 6.8 Color Constancy Using a Dichromatic Reflection Model; 7 Algorithms for Color Constancy under Nonuniform Illumination; 7.1 The Retinex Theory of Color Vision; 7.2 Computation of Lightness and Color; 7.3 Hardware Implementation of Land's Retinex Theory; 7.4 Color Correction on Multiple Scales; 7.5 Homomorphic Filtering; 7.6 Intrinsic Images; 7.7 Reflectance Images from Image Sequences; 7.8 Additional Algorithms; 8 Learning Color Constancy; 8.1 Learning a Linear Filter 8.2 Learning Color Constancy Using Neural Networks8.3 Evolving Color Constancy; 8.4 Analysis of Chromatic Signals; 8.5 Neural Architecture based on Double Opponent Cells; 8.6 Neural Architecture Using Energy Minimization; 9 Shadow Removal and Brightening; 9.1 Shadow Removal Using Intrinsic Images; 9.2 Shadow Brightening; 10 Estimating the Illuminant Locally; 10.1 Local Space Average Color; 10.2 Computing Local Space Average Color on a Grid of Processing Elements; 10.3 Implementation Using a Resistive Grid; 10.4 Experimental Results; 11 Using Local Space Average Color for Color Constancy 11.1 Scaling Input Values11.2 Color Shifts; 11.3 Normalized Color Shifts; 11.4 Adjusting Saturation; 11.5 Combining White Patch Retinex and the Gray World Assumption; 12 Computing Anisotropic Local Space Average Color; 12.1 Nonlinear Change of the Illuminant; 12.2 The Line of Constant Illumination; 12.3 Interpolation Methods; 12.4 Evaluation of Interpolation Methods; 12.5 Curved Line of Constant Illumination; 12.6 Experimental Results; 13 Evaluation of Algorithms; 13.1 Histogram-based Object Recognition; 13.2 Object Recognition under Changing Illumination 13.3 Evaluation on Object Recognition Tasks |
Record Nr. | UNINA-9910143706803321 |
Ebner Marc
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Chichester, : John Wiley, c2007 | ||
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Lo trovi qui: Univ. Federico II | ||
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Color constancy [[electronic resource] /] / Marc Ebner |
Autore | Ebner Marc |
Pubbl/distr/stampa | Chichester, : John Wiley, c2007 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina | 152.145 |
Collana | Wiley-IS&T series in imaging science and technology |
Soggetto topico | Color vision |
ISBN |
1-280-85590-8
9786610855902 0-470-51049-8 0-470-51048-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Constancy; Contents; Series Preface; Preface; 1 Introduction; 1.1 What is Color Constancy?; 1.2 Classic Experiments; 1.3 Overview; 2 The Visual System; 2.1 Eye and Retina; 2.2 Visual Cortex; 2.3 On the Function of the Color Opponent Cells; 2.4 Lightness; 2.5 Color Perception Correlates with Integrated Reflectances; 2.6 Involvement of the Visual Cortex in Color Constancy; 3 Theory of Color Image Formation; 3.1 Analog Photography; 3.2 Digital Photography; 3.3 Theory of Radiometry; 3.4 Reflectance Models; 3.5 Illuminants; 3.6 Sensor Response; 3.7 Finite Set of Basis Functions
4 Color Reproduction4.1 Additive and Subtractive Color Generation; 4.2 Color Gamut; 4.3 Computing Primary Intensities; 4.4 CIE XYZ Color Space; 4.5 Gamma Correction; 4.6 Von Kries Coefficients and Sensor Sharpening; 5 Color Spaces; 5.1 RGB Color Space; 5.2 sRGB; 5.3 CIE L*u*v*Color Space; 5.4 CIE L*a*b*Color Space; 5.5 CMY Color Space; 5.6 HSI Color Space; 5.7 HSV Color Space; 5.8 Analog and Digital Video Color Spaces; 6 Algorithms for Color Constancy under Uniform Illumination; 6.1 White Patch Retinex; 6.2 The Gray World Assumption; 6.3 Variant of Horn's Algorithm 6.4 Gamut-constraint Methods6.5 Color in Perspective; 6.6 Color Cluster Rotation; 6.7 Comprehensive Color Normalization; 6.8 Color Constancy Using a Dichromatic Reflection Model; 7 Algorithms for Color Constancy under Nonuniform Illumination; 7.1 The Retinex Theory of Color Vision; 7.2 Computation of Lightness and Color; 7.3 Hardware Implementation of Land's Retinex Theory; 7.4 Color Correction on Multiple Scales; 7.5 Homomorphic Filtering; 7.6 Intrinsic Images; 7.7 Reflectance Images from Image Sequences; 7.8 Additional Algorithms; 8 Learning Color Constancy; 8.1 Learning a Linear Filter 8.2 Learning Color Constancy Using Neural Networks8.3 Evolving Color Constancy; 8.4 Analysis of Chromatic Signals; 8.5 Neural Architecture based on Double Opponent Cells; 8.6 Neural Architecture Using Energy Minimization; 9 Shadow Removal and Brightening; 9.1 Shadow Removal Using Intrinsic Images; 9.2 Shadow Brightening; 10 Estimating the Illuminant Locally; 10.1 Local Space Average Color; 10.2 Computing Local Space Average Color on a Grid of Processing Elements; 10.3 Implementation Using a Resistive Grid; 10.4 Experimental Results; 11 Using Local Space Average Color for Color Constancy 11.1 Scaling Input Values11.2 Color Shifts; 11.3 Normalized Color Shifts; 11.4 Adjusting Saturation; 11.5 Combining White Patch Retinex and the Gray World Assumption; 12 Computing Anisotropic Local Space Average Color; 12.1 Nonlinear Change of the Illuminant; 12.2 The Line of Constant Illumination; 12.3 Interpolation Methods; 12.4 Evaluation of Interpolation Methods; 12.5 Curved Line of Constant Illumination; 12.6 Experimental Results; 13 Evaluation of Algorithms; 13.1 Histogram-based Object Recognition; 13.2 Object Recognition under Changing Illumination 13.3 Evaluation on Object Recognition Tasks |
Record Nr. | UNINA-9910830272103321 |
Ebner Marc
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Chichester, : John Wiley, c2007 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Color constancy [[electronic resource] /] / Marc Ebner |
Autore | Ebner Marc |
Pubbl/distr/stampa | Chichester, : John Wiley, c2007 |
Descrizione fisica | 1 online resource (409 p.) |
Disciplina | 152.145 |
Collana | Wiley-IS&T series in imaging science and technology |
Soggetto topico | Color vision |
ISBN |
1-280-85590-8
9786610855902 0-470-51049-8 0-470-51048-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Constancy; Contents; Series Preface; Preface; 1 Introduction; 1.1 What is Color Constancy?; 1.2 Classic Experiments; 1.3 Overview; 2 The Visual System; 2.1 Eye and Retina; 2.2 Visual Cortex; 2.3 On the Function of the Color Opponent Cells; 2.4 Lightness; 2.5 Color Perception Correlates with Integrated Reflectances; 2.6 Involvement of the Visual Cortex in Color Constancy; 3 Theory of Color Image Formation; 3.1 Analog Photography; 3.2 Digital Photography; 3.3 Theory of Radiometry; 3.4 Reflectance Models; 3.5 Illuminants; 3.6 Sensor Response; 3.7 Finite Set of Basis Functions
4 Color Reproduction4.1 Additive and Subtractive Color Generation; 4.2 Color Gamut; 4.3 Computing Primary Intensities; 4.4 CIE XYZ Color Space; 4.5 Gamma Correction; 4.6 Von Kries Coefficients and Sensor Sharpening; 5 Color Spaces; 5.1 RGB Color Space; 5.2 sRGB; 5.3 CIE L*u*v*Color Space; 5.4 CIE L*a*b*Color Space; 5.5 CMY Color Space; 5.6 HSI Color Space; 5.7 HSV Color Space; 5.8 Analog and Digital Video Color Spaces; 6 Algorithms for Color Constancy under Uniform Illumination; 6.1 White Patch Retinex; 6.2 The Gray World Assumption; 6.3 Variant of Horn's Algorithm 6.4 Gamut-constraint Methods6.5 Color in Perspective; 6.6 Color Cluster Rotation; 6.7 Comprehensive Color Normalization; 6.8 Color Constancy Using a Dichromatic Reflection Model; 7 Algorithms for Color Constancy under Nonuniform Illumination; 7.1 The Retinex Theory of Color Vision; 7.2 Computation of Lightness and Color; 7.3 Hardware Implementation of Land's Retinex Theory; 7.4 Color Correction on Multiple Scales; 7.5 Homomorphic Filtering; 7.6 Intrinsic Images; 7.7 Reflectance Images from Image Sequences; 7.8 Additional Algorithms; 8 Learning Color Constancy; 8.1 Learning a Linear Filter 8.2 Learning Color Constancy Using Neural Networks8.3 Evolving Color Constancy; 8.4 Analysis of Chromatic Signals; 8.5 Neural Architecture based on Double Opponent Cells; 8.6 Neural Architecture Using Energy Minimization; 9 Shadow Removal and Brightening; 9.1 Shadow Removal Using Intrinsic Images; 9.2 Shadow Brightening; 10 Estimating the Illuminant Locally; 10.1 Local Space Average Color; 10.2 Computing Local Space Average Color on a Grid of Processing Elements; 10.3 Implementation Using a Resistive Grid; 10.4 Experimental Results; 11 Using Local Space Average Color for Color Constancy 11.1 Scaling Input Values11.2 Color Shifts; 11.3 Normalized Color Shifts; 11.4 Adjusting Saturation; 11.5 Combining White Patch Retinex and the Gray World Assumption; 12 Computing Anisotropic Local Space Average Color; 12.1 Nonlinear Change of the Illuminant; 12.2 The Line of Constant Illumination; 12.3 Interpolation Methods; 12.4 Evaluation of Interpolation Methods; 12.5 Curved Line of Constant Illumination; 12.6 Experimental Results; 13 Evaluation of Algorithms; 13.1 Histogram-based Object Recognition; 13.2 Object Recognition under Changing Illumination 13.3 Evaluation on Object Recognition Tasks |
Record Nr. | UNINA-9910841543603321 |
Ebner Marc
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Chichester, : John Wiley, c2007 | ||
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Lo trovi qui: Univ. Federico II | ||
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Color space and its divisions [[electronic resource] ] : color order from antiquity to the present / / Rolf G. Kuehni |
Autore | Kuehni Rolf G |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (440 p.) |
Disciplina |
152.145
535.6 |
Soggetto topico |
Color vision
Colors |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-36686-9
9786610366866 0-470-23540-3 0-471-46146-6 0-471-43226-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Space and Its Divisions; Contents; Preface; Chapter 1. The Concept of Color Space and Color Solid; 1.1 Introduction; 1.2 Divisions of Color Spaces and Solids; 1.3 Uniform and Regular Color Spaces; 1.4 Color Space, Sensation, Perception, and Awareness; 1.5 Plan of the Book; Chapter 2. Historical Development of Color Order Systems; 2.1 Color and Color Order Systems; 2.2 From Ancient Greece to the Middle Ages; 2.3 Color Order in the Renaissance; 2.4 Newton's Color Diagram; 2.5 Development of the Color Circle; 2.6 Mayer and Lambert's Color Solids; 2.7 Color Circles from Harris to Henry
2.8 Three Primary Color Theories2.9 Runge's Color Sphere; 2.10 The Cylindrical System of Matthias Klotz; 2.11 The Early Development of Psychophysics; 2.12 Chevreul's Hemispheric System; 2.13 Doppler's Sphere Octant; 2.14 Yellow, Red and Blue, For a Time Firmly Established as Primary Colors; 2.15 Helmholtz, Grassmann, and Maxwell; 2.16 Hering; 2.17 Geometrical Systems of the Nineteenth Century; 2.18 The Nineteenth-Century Experimental Psychologists; 2.19 The Munsell System; 2.20 Ridgeway's Color Atlas; 2.21 Ostwald's Farbkörper (Color Solid); 2.22 Geometrical Systems of the Twentieth Century 2.23 Rösch-MacAdam Color Solid2.24 The Luther-Nyberg Color Solid; 2.25 The German DIN6164 System; 2.26 Optical Society of America Uniform Color Scales; 2.27 Swedish Natural Color System; 2.28 Universal Color Language; 2.29 Color Mixing Spaces; 2.30 Spectral Spaces; Chapter 3. Psychophysics; 3.1 Fundaments of Psychophysics; 3.2 Categories; 3.3 Differences versus Magnitudes; 3.4 Psychophysical Scaling: Levels of Measurement; 3.5 Scaling Methods; 3.6 Unidimensional Scaling Methods; 3.7 Psychometric Function; 3.8 Multidimensional Scaling; 3.9 Psychological and Psychophysical Spaces 3.10 Psychophysical Scaling as a Basis of Color SpaceChapter 4. Color Attributes and Perceptual Attribute Scaling; 4.1 Theories of Vision; 4.2 Historical Development of Views on Attributes; 4.3 Whiteness and Blackness; 4.4 Evans's Five Color Attributes; 4.5 Common Color Attribute Definitions; 4.6 Confirmation of Three Attributes; 4.7 Contrast versus Similitude; 4.8 Neural Correlates of Color Attributes; 4.9 Psychological (Perceptual) Scaling of Color Attributes; 4.10 Perception of Color Differences; Chapter 5. Psychophysical Scaling of Color Attributes: Stimulus and Perception 5.1 Requirements for a Uniform Psychophysical Color Space5.2 Postulated Relationship between Psychological and Physical Magnitudes; 5.3 Photometry and Brightness/Lightness; 5.4 The Colorimetric System; 5.5 Cone Response Space; 5.6 Opponent Color Space; 5.7 How Are the L, M, S and X, Y, Z Color Spaces Related?; 5.8 Expressing Psychological Scales in Psychophysical Spaces; 5.9 Color Matching and Appearance Scaling; 5.10 Placement of the Red and Green Unique Hues in the Opponent Color Diagram; 5.11 Curvature of Lines of Constant Hue Blue Colors 5.12 Munsell Colors in the L, M, S and X, Y, Z Spaces and the a, b Diagram |
Record Nr. | UNINA-9910143197403321 |
Kuehni Rolf G
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Hoboken, N.J., : Wiley-Interscience, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Color space and its divisions [[electronic resource] ] : color order from antiquity to the present / / Rolf G. Kuehni |
Autore | Kuehni Rolf G |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (440 p.) |
Disciplina |
152.145
535.6 |
Soggetto topico |
Color vision
Colors |
ISBN |
1-280-36686-9
9786610366866 0-470-23540-3 0-471-46146-6 0-471-43226-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Space and Its Divisions; Contents; Preface; Chapter 1. The Concept of Color Space and Color Solid; 1.1 Introduction; 1.2 Divisions of Color Spaces and Solids; 1.3 Uniform and Regular Color Spaces; 1.4 Color Space, Sensation, Perception, and Awareness; 1.5 Plan of the Book; Chapter 2. Historical Development of Color Order Systems; 2.1 Color and Color Order Systems; 2.2 From Ancient Greece to the Middle Ages; 2.3 Color Order in the Renaissance; 2.4 Newton's Color Diagram; 2.5 Development of the Color Circle; 2.6 Mayer and Lambert's Color Solids; 2.7 Color Circles from Harris to Henry
2.8 Three Primary Color Theories2.9 Runge's Color Sphere; 2.10 The Cylindrical System of Matthias Klotz; 2.11 The Early Development of Psychophysics; 2.12 Chevreul's Hemispheric System; 2.13 Doppler's Sphere Octant; 2.14 Yellow, Red and Blue, For a Time Firmly Established as Primary Colors; 2.15 Helmholtz, Grassmann, and Maxwell; 2.16 Hering; 2.17 Geometrical Systems of the Nineteenth Century; 2.18 The Nineteenth-Century Experimental Psychologists; 2.19 The Munsell System; 2.20 Ridgeway's Color Atlas; 2.21 Ostwald's Farbkörper (Color Solid); 2.22 Geometrical Systems of the Twentieth Century 2.23 Rösch-MacAdam Color Solid2.24 The Luther-Nyberg Color Solid; 2.25 The German DIN6164 System; 2.26 Optical Society of America Uniform Color Scales; 2.27 Swedish Natural Color System; 2.28 Universal Color Language; 2.29 Color Mixing Spaces; 2.30 Spectral Spaces; Chapter 3. Psychophysics; 3.1 Fundaments of Psychophysics; 3.2 Categories; 3.3 Differences versus Magnitudes; 3.4 Psychophysical Scaling: Levels of Measurement; 3.5 Scaling Methods; 3.6 Unidimensional Scaling Methods; 3.7 Psychometric Function; 3.8 Multidimensional Scaling; 3.9 Psychological and Psychophysical Spaces 3.10 Psychophysical Scaling as a Basis of Color SpaceChapter 4. Color Attributes and Perceptual Attribute Scaling; 4.1 Theories of Vision; 4.2 Historical Development of Views on Attributes; 4.3 Whiteness and Blackness; 4.4 Evans's Five Color Attributes; 4.5 Common Color Attribute Definitions; 4.6 Confirmation of Three Attributes; 4.7 Contrast versus Similitude; 4.8 Neural Correlates of Color Attributes; 4.9 Psychological (Perceptual) Scaling of Color Attributes; 4.10 Perception of Color Differences; Chapter 5. Psychophysical Scaling of Color Attributes: Stimulus and Perception 5.1 Requirements for a Uniform Psychophysical Color Space5.2 Postulated Relationship between Psychological and Physical Magnitudes; 5.3 Photometry and Brightness/Lightness; 5.4 The Colorimetric System; 5.5 Cone Response Space; 5.6 Opponent Color Space; 5.7 How Are the L, M, S and X, Y, Z Color Spaces Related?; 5.8 Expressing Psychological Scales in Psychophysical Spaces; 5.9 Color Matching and Appearance Scaling; 5.10 Placement of the Red and Green Unique Hues in the Opponent Color Diagram; 5.11 Curvature of Lines of Constant Hue Blue Colors 5.12 Munsell Colors in the L, M, S and X, Y, Z Spaces and the a, b Diagram |
Record Nr. | UNINA-9910830532303321 |
Kuehni Rolf G
![]() |
||
Hoboken, N.J., : Wiley-Interscience, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Color space and its divisions [[electronic resource] ] : color order from antiquity to the present / / Rolf G. Kuehni |
Autore | Kuehni Rolf G |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (440 p.) |
Disciplina |
152.145
535.6 |
Soggetto topico |
Color vision
Colors |
ISBN |
1-280-36686-9
9786610366866 0-470-23540-3 0-471-46146-6 0-471-43226-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Color Space and Its Divisions; Contents; Preface; Chapter 1. The Concept of Color Space and Color Solid; 1.1 Introduction; 1.2 Divisions of Color Spaces and Solids; 1.3 Uniform and Regular Color Spaces; 1.4 Color Space, Sensation, Perception, and Awareness; 1.5 Plan of the Book; Chapter 2. Historical Development of Color Order Systems; 2.1 Color and Color Order Systems; 2.2 From Ancient Greece to the Middle Ages; 2.3 Color Order in the Renaissance; 2.4 Newton's Color Diagram; 2.5 Development of the Color Circle; 2.6 Mayer and Lambert's Color Solids; 2.7 Color Circles from Harris to Henry
2.8 Three Primary Color Theories2.9 Runge's Color Sphere; 2.10 The Cylindrical System of Matthias Klotz; 2.11 The Early Development of Psychophysics; 2.12 Chevreul's Hemispheric System; 2.13 Doppler's Sphere Octant; 2.14 Yellow, Red and Blue, For a Time Firmly Established as Primary Colors; 2.15 Helmholtz, Grassmann, and Maxwell; 2.16 Hering; 2.17 Geometrical Systems of the Nineteenth Century; 2.18 The Nineteenth-Century Experimental Psychologists; 2.19 The Munsell System; 2.20 Ridgeway's Color Atlas; 2.21 Ostwald's Farbkörper (Color Solid); 2.22 Geometrical Systems of the Twentieth Century 2.23 Rösch-MacAdam Color Solid2.24 The Luther-Nyberg Color Solid; 2.25 The German DIN6164 System; 2.26 Optical Society of America Uniform Color Scales; 2.27 Swedish Natural Color System; 2.28 Universal Color Language; 2.29 Color Mixing Spaces; 2.30 Spectral Spaces; Chapter 3. Psychophysics; 3.1 Fundaments of Psychophysics; 3.2 Categories; 3.3 Differences versus Magnitudes; 3.4 Psychophysical Scaling: Levels of Measurement; 3.5 Scaling Methods; 3.6 Unidimensional Scaling Methods; 3.7 Psychometric Function; 3.8 Multidimensional Scaling; 3.9 Psychological and Psychophysical Spaces 3.10 Psychophysical Scaling as a Basis of Color SpaceChapter 4. Color Attributes and Perceptual Attribute Scaling; 4.1 Theories of Vision; 4.2 Historical Development of Views on Attributes; 4.3 Whiteness and Blackness; 4.4 Evans's Five Color Attributes; 4.5 Common Color Attribute Definitions; 4.6 Confirmation of Three Attributes; 4.7 Contrast versus Similitude; 4.8 Neural Correlates of Color Attributes; 4.9 Psychological (Perceptual) Scaling of Color Attributes; 4.10 Perception of Color Differences; Chapter 5. Psychophysical Scaling of Color Attributes: Stimulus and Perception 5.1 Requirements for a Uniform Psychophysical Color Space5.2 Postulated Relationship between Psychological and Physical Magnitudes; 5.3 Photometry and Brightness/Lightness; 5.4 The Colorimetric System; 5.5 Cone Response Space; 5.6 Opponent Color Space; 5.7 How Are the L, M, S and X, Y, Z Color Spaces Related?; 5.8 Expressing Psychological Scales in Psychophysical Spaces; 5.9 Color Matching and Appearance Scaling; 5.10 Placement of the Red and Green Unique Hues in the Opponent Color Diagram; 5.11 Curvature of Lines of Constant Hue Blue Colors 5.12 Munsell Colors in the L, M, S and X, Y, Z Spaces and the a, b Diagram |
Record Nr. | UNINA-9910840728603321 |
Kuehni Rolf G
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Hoboken, N.J., : Wiley-Interscience, c2003 | ||
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Lo trovi qui: Univ. Federico II | ||
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Colour : some philosophical problems from Wittgenstein / Jonathan Westphal |
Autore | WESTPHAL, Jonathan |
Pubbl/distr/stampa | Oxford : Basic Blackwell, 1987 |
Descrizione fisica | 117 p. ; 22 cm. |
Disciplina | 152.145 |
Collana | Aristotelian society series |
Soggetto topico | WITTGENSTEIN, LUDWIG |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-990005674020203316 |
WESTPHAL, Jonathan
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Oxford : Basic Blackwell, 1987 | ||
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Lo trovi qui: Univ. di Salerno | ||
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Cromorama : come il colore ha cambiato il nostro sguardo / Riccardo Falcinelli |
Autore | Falcinelli, Riccardo |
Pubbl/distr/stampa | Torino, : Einaudi, 2017 |
Descrizione fisica | VII, 470 p. : ill. ; 22 cm |
Disciplina | 152.145 |
Collana | Einaudi stile libero. Extra |
Soggetto non controllato | Colori - Percezione visiva |
ISBN | 978-88-06-23593-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ita |
Record Nr. | UNINA-9910507508503321 |
Falcinelli, Riccardo
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Torino, : Einaudi, 2017 | ||
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Lo trovi qui: Univ. Federico II | ||
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L'essenza dei colori / Rudolf Steiner |
Autore | Steiner, Rudolf |
Pubbl/distr/stampa | Milano : Editrice Antroposofica, 1988 |
Descrizione fisica | 240 p. ; 17 cm. |
Disciplina | 152.145 |
Soggetto topico | Colori - Percezione |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ita |
Record Nr. | UNISALENTO-991000237249707536 |
Steiner, Rudolf
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Milano : Editrice Antroposofica, 1988 | ||
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Lo trovi qui: Univ. del Salento | ||
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