Duplicity Theory of Vision: From Newton to the Present

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eferences 217Shlaer, S., Smith, E. L. & Chase, A. M. (1941/1942). Visual acuity and illumination in differentspectral regions. Journal of General Physiology, 25, 553–569.Stabell, B. (1967a). Rods as color receptors in scotopic vision. Scandinavian Journal ofPsychology, 8, 132–138.Stabell, B., Nordby, K. & Stabell, U. (1987). Light-adaptation of the human rod system.Clinical Vision Sciences, 2, 83–91.Stabell, B. & Stabell, U. (1971a). Facilitation of chromatic cone activity by rod activity.I. Red-related cone activity. Scandinavian Journal of Psychology, 12, 99–105.Stabell, B. & Stabell, U. (1973a). Chromatic rod vision IX: a theoretical survey. VisionResearch, 13, 449–450.Stabell, B. & Stabell, U. (1974). Chromatic rod-cone interaction. Vision Research, 14,1389–1392.Stabell, B. & Stabell, U. (1976). Effects of rod activity on color threshold. Vision Research,16, 1105–1110.Stabell, B., Stabell, U. & Nordby, K. (1986b). Dark-adaptation in a rod monochromat: effect ofstimulus size, exposure time and retinal eccentricity. Clinical Vision Sciences, 1, 75–80.Stabell, B. & Stabell, U. (1998). Chromatic rod-cone interaction during dark adaptation.Journal of the Optical Society of America A, 15, 2809–2815.Stabell, U. (1967b). Rods as color receptors in photopic vision. Scandinavian Journal ofPsychology, 8, 139–144.Stabell, U. & Stabell, B. (1965). Rods as color receptors. Scandinavian Journal of Psychology,6, 195–200.Stabell, U. & Stabell, B. (1971b). Facilitation of chromatic cone activity by rod activity. II. Variationof chromatic-related cone activity. Scandinavian Journal of Psychology, 12, 168–174.Stabell, U. & Stabell, B. (1971c). Chromatic rod vision II: wavelength of pre-stimulationvaried. Scandinavian Journal of Psychology, 12, 282–288.Stabell, U. & Stabell, B. (1973b). Chromatic rod activity at mesopic intensities. VisionResearch, 13, 2255–2260.Stabell, U. & Stabell, B. (1975). Scotopic contrast hues triggered by rod activity. VisionResearch, 15, 1115–1118.Stabell, U. & Stabell, B. (1978). Scotopic hues of simultaneous contrast. Vision Research, 18,1491–1496.Stabell, U. & Stabell, B. (1989). Dark-adaptation mechanisms of the long-wave cones. ScandinavianJournal of Psychology, 30, 207–219.Stabell, U. & Stabell, B. (1994). Mechanisms of chromatic rod vision in scotopic illumination.Vision Research, 34, 1019–1027.Stabell, U. & Stabell, B. (1996). Long-term rod dark adaptation in man: threshold measurements,rhodopsin regeneration and allosteric sensitivity regulation. An evaluation. ScandinavianJournal of Psychology, 37, 259–268.
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Duplicity Theory of VisionThe dupli
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CAMBRIDGE UNIVERSITY PRESSCambridge
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ContentsAcknowledgementspage xiii1
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contents ix7 Investigations of H. K
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contents xi18.2 Serious challenges
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AcknowledgementsWe gratefully ackno
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2 introductionThe question of how t
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4 introductionThe theory that the h
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Part I The development of thebasic
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8 development of the basic ideas of
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10 development of the basic ideas o
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3 The Schultze tradition3.1 The dup
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5 The colour theories of ArminTsche
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6 The duplicity theory of PolyakAft
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64 development of the duplicity the
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7 Investigations of H. K. Hartlinea
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8 The duplicity theoryof R. GranitT
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9 Contributions of E. N. Willmer,P.
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100 development of the duplicity th
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Part III Chromatic rod vision:a his
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110 chromatic rod vision: a histori
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13 Rod-cone interactions inmesopic
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14 Further exploration ofchromatic
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15 IntroductionThe most basic assum
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134 theories of sensitivity regulat
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18 Contribution of G. Wald:photoche
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21 Rushton’s AGC model21.1 Each r
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23 Rushton and Barlow comparedAs ca
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25 Several mechanisms involvedin se
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26 Sensitivity regulation due torod
Page 414: 27 Modern conceptions ofsensitivity
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Page 446: 208 referencesBoring, E. G. (1957).
Page 450: 210 referencesFesenko, E. E., Kolos
Page 454: 212 referencesKnight, R. & Buck, S.
Page 458: 214 referencesMcCabe, S. L., Pelosi
Page 462: 216 referencesRushton, W. A. H. (19
Page 468: eferences 219Wald, G. (1934). Carot
Page 472: Indexabsorption spectrum 144achroma
Page 476: index 223Purkinje afterimage 38, 92
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Duplicity Theory of Vision: From Newton to the Present

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