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A CYBERNETIC APPROACH
A MODEL OF A NEURON
MODELLING THE CLASSIFICATION SYSTEM
4 other sections not shown
adaptive mechanisms adaptor after-images antagonistic assimilation behaviour biological blue channels chromatic classification system coding cells colour blindness colour constancy colour contrast colour mixture colour perception colour sensation colour vision colour-coding cells complementary colours concepts cone corresponding cortex cortical cybernetic decoding deuteranopia discrimination discussed encode equation excitation excitatory experimental explained Figure 38 frequency function green and red green receptor Hassenstein Helmholtz Helmholtz's theory Hering's horizontal cells hypothesis inhibitory inputs interactions interpretation interspike interval Land's model lateral inhibition LGN cells logical elements luminosity luminosity curve model neuron monochromatic light nervous system neural network Newton opponent processes orange pathways peak phenomena polytropogram predictions present model processes produced protanopia psychological quantitative react receptive field receptor level relations represented retina S-potentials saturation sensitivity curves spatial adaptation spectrum spontaneous firing rate stage theories stimulus suggested summation synaptic transformation Teleology temporal temporal summation threshold Valois values wavelength yellow receptor Young-Helmholtz theory