«Publications of the University of Eastern Finland Dissertations in Forestry and Natural Sciences TUIJA JETSU Modeling color vision Publications of ...»
 L. Hardy, G. Rand, and M. Rittler. The H.R.R. polychromatic plates. J. Opt. Soc. Am., 44:509–523, 1954.
 E. Hering. Zur Lehre vom Lichtsinne. Carl Gerolds Sohn, Hamburg, 1878. English translation: Outlines of a theory of the light sense (translated by Hurvich, L.M. & Jameson, D.). Harvard University Press, Cambridge, Mass., USA, 1964.
 H. Hofer, J. Carroll, J. Neitz, M. Neitz, and D. R. Williams. Organization of the human trichromatic cone mosaic. J. Neurosci., 25(42):9669–9679, 2005.
 J. Holmes and W. Wright. A new colour-perception lantern.
Color Research & Application, 7:82–88, 1982.
 S. Hood, J. Mollon, L. Purves, and G. Jordan. Color discrimination in carriers of color deﬁciency. Vision Research, 46(18):2894– 2900, 2006.
 http://commons.wikimedia.org (User:Chrkl). Basis for the retina diagram (2010).
 http://commons.wikimedia.org (User:Rhcastilhos). Eye diagram (2010).
 N. K. Humphrey. Vision in a monkey without striate cortex: a case study. Perception, 3(3):241–255, 1974.
 L. Hurvich and D. Jameson. An opponent-process theory of color vision. Psychol Rev, 64:384–404, 1957.
 C. R. Ingling, Jr. and B. H.-P. Tsou. Orthogonal combination of the three visual channels. Vision Research, 17(9):1075–1082, 1977.
 S. Ishihara. The series of plates designed as a test for colourblindness. Kanehara Shuppan Co., Ltd., Tokyo, 1976.
 G. H. Jacobs. Primate photopigments and primate color vision.
PNAS, 93(2):577–581, 1996.
 G. H. Jacobs. A perspective on color vision in platyrrhine monkeys. Vision Research, 38(21):3307–3313, 1998.
 G. H. Jacobs and M. P. Rowe. Evolution of vertebrate colour vision. Clinical and Experimental Optometry, 87(4-5):206–216, 2004.
 K. A. Jameson, S. M. Highnote, and L. M. Wasserman. Richer color experience in observers with multiple photopigment opsin genes. Psychonomic Bulletin & Review, 8:244–261, 2001.
 J. B. Jonas, U. Schneider, and G. O. H. Naumann. Count and density of human retinal photoreceptors. Graefe’s Archive for Clinical and Experimental Ophthalmology, 230(6):505–510, 1992.
 D. Judd. Response functions for types of vision according to the Müller theory. Journal of Research of the National Bureau of Standards, 42:1–16, 1949.
 P. K. Kaiser and R. M. Boynton. Human Color Vision (Second Edition). Optical Society of America, Washington, DC, 1996.
 H. Kauppinen. Development of a Color Machine Vision Method for Wood Surface Inspection. PhD thesis, Oulun Yliopisto, 1999.
 K. Knoblauch, F. Vital-Durand, and J. L. Barbur. Variation of chromatic sensitivity across the life span. Vision Research, 41(1):23–36, 2001.
 T. W. Kraft, J. Neitz, and M. Neitz. Spectra of human L cones.
Vision Research, 38:3663– 3670, 1998.
 J. Kremers, H. P. N. Scholl, H. Knau, T. T. J. M. Berendschot, T. Usui, and L. T. Sharpe. L/M cone ratios in human trichromats assessed by psychophysics, electroretinography, and retinal densitometry. Journal of the Optical Society of America A, 17:517–526, 2000.
 R. G. Kuehni. Variability in unique hue selection: A surprising phenomenon. Color Research & Application, 29(2):158–162, 2004.
 S. Kukkonen, H. Kalviainen, and J. Parkkinen. Color features for quality control in ceramic tile industry. Opt. Eng., 40(2):170– 177, 2001.
 E. H. Land. The Retinex. Am. Scientist, 52:247–264, 1964.
 E. H. Land and J. J. McCann. Lightness and Retinex theory. J.
Opt. Soc. Am., 61:1–11, 1971.
 M. S. Loop, J. F. Shows, S. C. Mangel, and T. K. Kuyk.
Colour thresholds in dichromats and normals. Vision Research, 43(9):983–992, 2003.
 K. Mancuso, W. W. Hauswirth, Q. Li, T. B. Connor, J. A.
Kuchenbecker, M. C. Mauck, J. Neitz, and M. Neitz. Gene therapy for red-green colour blindness in adult primates. Nature, 461:784–787, 2009.
 B. Martinkauppi, E. Doronina, J. Piironen, T. Jaaskelainen, and J. Parkkinen. Novel system for semiautomatic image segmentation of arctic charr. J. Electron. Imaging, 16(3):033012–8, 2007.
 P. M. Mehl, Y.-R. Chen, M. S. Kim, and D. E. Chan. Development of hyperspectral imaging technique for the detection of apple surface defects and contaminations. Journal of Food Engineering, 61(1):67–81, 2004.
 G. Müller. Über die Farbenempﬁndungen. Zeitschrift für Psychologie und Physiologie der Sinnesorgane, 17/18:1–430/435–647, 1930.
 J. Nathans. The evolution and physiology of human color vision: Insights from molecular genetic studies of visual pigments. Neuron, 24(2):299–312, 1999.
 J. Neitz, J. Carroll, Y. Yamauchi, M. Neitz, and D. R. Williams.
Color perception is mediated by a plastic neural mechanism that is adjustable in adults. Neuron, 35(4):783–792, 2002.
 J. Neitz, M. Neitz, and G. H. Jacobs. More than three different cone pigments among people with normal color vision. Vision Research, 33:117–122, 1993.
 M. Neitz and J. Neitz. Molecular genetics of color vision and color vision defects. Arch Ophthalmol, 118(5):691–700, 2000.
 M. Okuyama, N. Yokoyama, D. Nakao, N. Tsumura, and Y. Miyake. Accurate mapping pigmentations in human skin by spatio-temporal modulation of light source in the multispectral imaging. In PICS, pages 272–277, 2003.
 D. Osorio, A. C. Smith, M. Vorobyev, and H. M. BuchananSmith. Detection of fruit and the selection of primate visual pigments for color vision. The American Naturalist, 164(6):696– 708, 2004.
 D. Osorio and M. Vorobyev. Colour vision as an adaptation to frugivory in primates. Proceedings. Biological Sciences / The Royal Society, 263(1370):593–599, 1996. PMID: 8677259.
 D. Osorio and M. Vorobyev. A review of the evolution of animal colour vision and visual communication signals. Vision Research, 48(20):2042–2051, 2008.
 G. Osterberg. Topography of the layer of rods and cones in the human retina. Acta Ophthalmol., Suppl., 13(6):1–102, 1935.
 S. E. Palmer. Vision Science: Photons to Phenomenology. MIT Press, Cambridge, 1999.
 B. C. Regan, C. Julliot, B. Simmen, F. Vienot, P. CharlesDominique, and J. D. Mollon. Fruits, foliage and the evolution of primate colour vision. Philosophical Transactions: Biological Sciences,, 356(1407):229–283, 2001.
 A. Roorda and D. R. Williams. The arrangement of the three cone classes in the living human eye. Nature, 397(6719):520– 522, 1999.
 P. H. Schiller, N. K. Logothetis, and E. R. Charles. Functions of the colour-opponent and broad-band channels of the visual system. Nature, 343(6253):68–70, 1990.
 M. Sharifzaded, P. S. Bernstein, and W. Gellermann. Nonmydriatic ﬂuorescence-based quantitative imaging of human macular pigment distributions. J. Opt. Soc. Am. A, 23:2373– 2387, 2006.
 K. Shinomori, B. E. Schefrin, and J. S. Werner. Age-related changes in wavelength discrimination. J. Opt. Soc. Am. A, 18:310–318, 2001.
 V. C. Smith and J. Pokorny. Spectral sensitivity of the foveal cone photopigments between 400 and 500 nm. Vision Research, 15(2):161–171, 1975.
 A. Stockman and L. T. Sharpe. The spectral sensitivities of the middle- and long-wavelength-sensitive cones derived from measurements in observers of known genotype. Vision Research, 40:1711–1737, 2000.
 A. Stockman, L. T. Sharpe, and C. Fach. The spectral sensitivity of the human short-wavelength sensitive cones derived from thresholds and color matches. Vision Research, 39(17):2901– 2927, 1999.
 Y. Sugita. Experience in early infancy is indispensable for color perception. Current Biology, 14(14):1267–1271, 2004.
 E. Thompson. Colour Vision: A Study in Cognitive Science and the Philosophy of Perception. Routledge Press, London/New York, 1995.
 H. von Helmholz. Handbuch der Physiologischen Optik. Voss, Hamburg, 1867. English translation: Handbook of physiological optics (translated by Southall, J.P.C.). Optical Society of America, Rochester, N.Y., 1924.
 J. J. Vos. Colorimetric and photometric properties of a 2◦ fundamental observer. Color Research & Application, 3(3):125–128, 1978.
 J. J. Vos and P. L. Walraven. On the derivation of the foveal receptor primaries. Vision Research, 11:799–818, 1971.
 T. Wachtler, U. Dohrmann, and R. Hertel. Modeling color percepts of dichromats. Vision Research, 44(24):2843–2855, 2004.
 P. Walraven. A closer look at the tritanopic convergence point.
Vision Research, 14(12):1339–1343, IN4, 1974.
 A. Werner, A. Bayer, G. Schwarz, E. Zrenner, and W. Paulus.
Effects of ageing on postreceptoral short-wavelength gain control: Transient tritanopia increases with age. Vision Research, 50(17):1641–1648, 2010.
 J. S. Werner and V. G. Steele. Sensitivity of human foveal color mechanisms throughout the life span. J. Opt. Soc. Am.
A, 5(12):2122–2130, 1988.
 C. H. Williams. Nagel’s anomaloscope for testing color vision.
Trans Am Ophthalmol Soc, 14(1):161–165, 1915.
 D. R. Williams and A. Roorda. The trichromatic cone mosaic in the human eye. In K. R. Gegenfurtner and L. T.Sharpe,
editors, Color Vision: From Genes to Perception, pages 113–122.
Cambridge University Press, UK, 1999.
 G. Wyszecki and W. S. Stiles. Color science : concepts and methods, quantitative data and formulae (2nd edition). John Wiley & Sons, Inc., USA, 2000.
 S. Yokoyama and F. Radlwimmer. The "ﬁve-sites" rule and the evolution of red and green color vision in mammals. Mol Biol Evol, 15(5):560–567, 1998.
 T. Young. On the theory of light and colours. Philosophical transactions of the Royal Society of London, 92:12–48, 1802.
 S. Zeki, S. Aglioti, D. McKeefry, and G. Berlucchi. The neurological basis of conscious color perception in a blind patient.
PNAS, 96(24):14124–14129, 1999.
 H. Zollinger. Color: A Multidisciplinary Approach. Verlag Helvetica Chimica Acta / Wilet-VCH, Zurich / Weinheim, 1999.
Publications of the University of Eastern Finland Dissertations in Forestry and Natural Sciences
isbn 978-952-61-0257-3 issn 1798-5668