Research output: Contribution to journal › Review article › peer-review
HUMAN COLOUR PERCEPTION MECHANISMS: A REVIEW OF NATURAL SCIENCE CONCEPTS AND ARTISTIC MODELS FROM ANCIENT CHROMATISM TO NEUROICONICS AND HOLOGRAPHY; PART 1: HISTORICAL RETROSPECTIVE OF HYPOTHESES AND EXPERIMENTS. / Стафеев, Сергей Константинович; Шаров, Даниил Дмитриевич.
In: light and engineering, Vol. 33, No. 2, 17.04.2025, p. 4-17.Research output: Contribution to journal › Review article › peer-review
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TY - JOUR
T1 - HUMAN COLOUR PERCEPTION MECHANISMS: A REVIEW OF NATURAL SCIENCE CONCEPTS AND ARTISTIC MODELS FROM ANCIENT CHROMATISM TO NEUROICONICS AND HOLOGRAPHY; PART 1: HISTORICAL RETROSPECTIVE OF HYPOTHESES AND EXPERIMENTS
AU - Стафеев, Сергей Константинович
AU - Шаров, Даниил Дмитриевич
PY - 2025/4/17
Y1 - 2025/4/17
N2 - The review focuses on the evolution of views on the mechanisms of human colour perception in context of a gradual study of the spectral characteristics of light, the physiology and psychology of the visual mechanism, and the decoding of the functional features of retinal sensors and other neural groups throughout the visual pathway. The first part of the review presents historical information on the various stages of the development of views on the nature of colour vision not only from the perspective of natural science hypotheses provided by scientists, but also regarding the subjective opinions of representatives from the arts-artists and poets. The review briefly outlines concepts of ancient chromatism and medieval metaphysics of colour and continues with the first rational theories of colour perception, providing more detailed discussions on the views of Isaac Newton and Mikhail Lomonosov, Johann Goethe and John Turner, Gaspard Monge and Hermann von Helmholtz, Arthur Schopenhauer and Erwin Schrödinger, James Maxwell, and Ewald Hering. The second and third parts of the review will sequentially examine the progress in understanding the operation of colour-coding neurons, their receptive fields, colour discrimination thresholds, and other aspects in relation to such effects as co lour constancy, the relationship between the form of objects and their perceived colour, and various colour illusions. Recent intriguing results, obtained using molecular genetic methods, shed new light on the evolutionary transformations of colour vision in animals and humans. The review will show an impact of the major studies of deviations in colour perception on practically significant lighting solutions, discussion of the individualities of colour perception in virtual and augmented reality systems, as well as in context of various holographic technologies. Furthermore, the matter of museum lighting optimization and the production of specialized LED devices will be considered. Finally, the review presents the link between the latest achievements in the field of psychophysiology of colour perception and the spectral characteristics of light sources familiar to specialists in colourimetry and lighting technology.
AB - The review focuses on the evolution of views on the mechanisms of human colour perception in context of a gradual study of the spectral characteristics of light, the physiology and psychology of the visual mechanism, and the decoding of the functional features of retinal sensors and other neural groups throughout the visual pathway. The first part of the review presents historical information on the various stages of the development of views on the nature of colour vision not only from the perspective of natural science hypotheses provided by scientists, but also regarding the subjective opinions of representatives from the arts-artists and poets. The review briefly outlines concepts of ancient chromatism and medieval metaphysics of colour and continues with the first rational theories of colour perception, providing more detailed discussions on the views of Isaac Newton and Mikhail Lomonosov, Johann Goethe and John Turner, Gaspard Monge and Hermann von Helmholtz, Arthur Schopenhauer and Erwin Schrödinger, James Maxwell, and Ewald Hering. The second and third parts of the review will sequentially examine the progress in understanding the operation of colour-coding neurons, their receptive fields, colour discrimination thresholds, and other aspects in relation to such effects as co lour constancy, the relationship between the form of objects and their perceived colour, and various colour illusions. Recent intriguing results, obtained using molecular genetic methods, shed new light on the evolutionary transformations of colour vision in animals and humans. The review will show an impact of the major studies of deviations in colour perception on practically significant lighting solutions, discussion of the individualities of colour perception in virtual and augmented reality systems, as well as in context of various holographic technologies. Furthermore, the matter of museum lighting optimization and the production of specialized LED devices will be considered. Finally, the review presents the link between the latest achievements in the field of psychophysiology of colour perception and the spectral characteristics of light sources familiar to specialists in colourimetry and lighting technology.
KW - colorimetry
KW - colour constancy
KW - colour perception
KW - colour sensation
KW - colourcoding neurons
KW - neuroiconics
KW - opponent mechanisms
KW - spectral range
KW - threshold sensitivity
KW - trichromatic theory
UR - https://www.mendeley.com/catalogue/d8d1c7c8-42d7-38fe-a80b-146a9c362a98/
U2 - 10.33383/2024-055
DO - 10.33383/2024-055
M3 - Обзорная статья
VL - 33
SP - 4
EP - 17
JO - Light and Engineering
JF - Light and Engineering
SN - 0236-2945
IS - 2
ER -
ID: 136288226