Behavioral and Brain Sciences 24 (4):703-704 (2001)
|Abstract||The perceptual circularity demonstrated by R. Shepard with respect to hue turns out to be a sphericity of color perception based on color excitation vectors of neuronal level. The spherical color model implicitly contains information concerning generalization under color learning. Subjective color differences are “computed” in neuronal nets being represented by amplitudes of evoked potentials triggered by color change. [Shepard].|
|Keywords||No keywords specified (fix it)|
|Categories||categorize this paper)|
|Through your library||Configure|
Similar books and articles
Ian Gold (2001). Spatial Location in Color Vision. Consciousness and Cognition 10 (1):59-62.
Rainer Mausfeld (2010). Color Within an Internalist Framework : The Role of Color in the Structure of the Perceptual System. In Jonathan D. Cohen & Mohan Matthen (eds.), Color Ontology and Color Science. Mit Press.
Angus Gellatly (2002). Color Perception: Processing of Wavelength Information and Conscious Experience of Color. In Barbara Saunders & Jaap Van Brakel (eds.), Theories, Technologies, Instrumentalities of Color: Anthropological and Historiographic Perspectives. University Press of America.
Werner Backhaus (1999). How to Compare Color Sensations in Different Brains. Behavioral and Brain Sciences 22 (6):944-945.
Mohan Matthen (2010). Color Experience: A Semantic Theory. In Jonathan Cohen & Mohan Matthen (eds.), Color Ontology and Color Science. MIT Press.
Mohan P. Matthen (1999). The Disunity of Color. Philosophical Review 108 (1):47-84.
Yasmina Jraissati (2010). Basic Color Terms Do Not Refer to Basic Colors. Rivista di Estetica 43 (1):125-145.
E. N. Sokolov (1998). Vector Code Differences and Similarities. Behavioral and Brain Sciences 21 (4):479-480.
Added to index2009-01-28
Total downloads8 ( #131,679 of 722,826 )
Recent downloads (6 months)1 ( #60,541 of 722,826 )
How can I increase my downloads?