Literaturverzeichnis


Abney, W. de W. (1910). On the change in hue of spectrum colors by dilution with white light. Proceedings of the Royal Society of London, A83, 120-127.
Alman, D. H. (1993). CIE Technical Committee 1-29, Industrial color-difference evaluation progress report. Color Research and Application, 18, 137-139.
Alpern, M. (1953). Metacontrast. Journal of the Optical Society of America, 43, 648-657.
Alpern, M. (1979). Lack of uniformity in colour matching. Journal of Physiology, 288, 85-105.
Arend, L. E. & Reeves, A. (1986). Simultaneous color constancy. Journal of the Optical Society of America A, 3, 1743-1751.
Arend, L. E., Reeves, A., Schirillo, J. & Goldstein, R. (1991). Simultaneous color constancy: Papers with diverse Munsell values. Journal of the Optical Society of America A, 8, 661-672.
Bartleson, C. J. (1959). Memory colors of familiar objects. Journal of the Optical Society of America, 50, 73-77.
Bäuml, K.-H. (1997). Sensory and perceptual mechanisms of color constancy. Unveröffentlichte Habilitationsschrift, Universität Regensburg.
Baylor, D. A., Nunn B. J. & Schnapf, J. L. (1987). Spectral sensitivity of the cones of the monkey Macaca fascicularis. Journal of Physiology (London), 390, 145-160.
Bedford, R. E. & Wyszecki, G. (1958). Wavelength discrimination for point sources. Journal of the Optical Society of America, 48, 129-135.
Bornstein, M. H., Kessen, W. & Weiskopf, S. (1976). The categories of hue in infancy. Science, 191, 201-202.
Brainard, D. H. (1996). Cone contrast and opponent modulation color spaces. In P. K. Kaiser & R. M. Boynton (Eds.), Human color vision (2nd ed., pp. 563-579). Washington, DC: Optical Society of America.
Brainard, D. H. & Wandell, B. A. (1986). Analysis of the Retinex theory of color vision. Journal of the Optical Society of America A, 3, 1651-1661.
Brainard, D. H. & Wandell, B. A. (1992). Asymmetric color matching: how color appearance depends on the illuminant. Journal of the Optical Society of America A, 9, 1433-1448.
Brent, R. P. (1973). Algorithms for function minimization without derivatives. Englewood Cliffs, NJ: Prentice-Hall.
Brindley, G. S. (1955). The colour of light of very long wavelength. Journal of Physiology (London), 130, 35-44.
Brindley, G. S. (1970). Physiology of the retina and the visual pathway (2nd ed.). London: Edward Arnold, Ltd.
Brown, W. R. J. (1952a). Statistics for color-matching data. Journal of the Optical Society of America, 42, 252-256.
Brown, W. R. J. (1952b). The effect of field size and chromatic surroundings on color discrimination. Journal of the Optical Society of America, 42, 837-844.
Brown, W. R. J. (1957). Color discrimination of twelve observers. Journal of the Optical Society of America, 47, 137-143.
Brown, W. R. J., Howe, W. G., Jackson, J. E. & Morris, R. H. (1956). Multivariate normality of the color-matching process. Journal of the Optical Society of America, 46, 46-49.
Brown, W. R. J. & MacAdam, D. L. (1949). Visual sensitivities to combined chromaticity and luminance differences. Journal of the Optical Society of America, 39, 808-834.
Burnham, R. W. & Clark, J. R. (1955). A test of hue memory. The Journal of Applied Psychology, 39, 164-172.
Burnham, R. W., Evans, R. M. & Newhall, S. M. (1957). Predictions of color appearance with different adaptation illuminations. Journal of the Optical Society of America, 47, 35-42.
Chichilnisky, E. J. & Wandell, B. A. (1997). Increment-decrement asymmetry in adaptation. Vision Research, 37, 616.
CIE. (1931). Commission Internationale de l'Eclairage Proceedings, 1931. Cambridge: Cambridge University Press.
CIE (1951). CIE Proceedings (1951). Vol. 1, Sec 4; Vol. 3. Paris: Bureau Central de la CIE, p. 37.
CIE (1987). International Lighting Vocabulary. CIE Publication No. 17.4. Vienna: Author.
CIE (1995). Industrial color difference evaluation. CIE Technical Report 116. Vienna: Author.
Cornelissen, F. W. & Brenner, E. (1995). Simultaneous colour constancy revisited: an analysis of viewing strategies. Vision Research, 35, 2431-2448.
Dannemiller, J. L. (1989). Computational approaches to color constancy: adaptive and ontogenetic considerations. Psychological Review, 96, 255-266.
Derrington, A. M., Krauskopf, J. & Lennie, P. (1984). Chromatic mechanisms in lateral geniculate nucleus of macaque. Journal of Physiology, 357, 241-265.
Deutsches Institut für Normung. (1993). Pigmente, Füllstoffe, Farbstoffe. DIN 5033 Teil 1 bis DIN 55 929. Berlin: Beuth Verlag GmbH.
Drösler, J. (1989). Quantitative psychology. Göttingen: Hogrefe & Huber.
Drösler, J. (1993). Color similarity represented as a metric of color space. In G. Fischer & D. Laming (Eds.), Mathematical psychology: current developments (pp. 19-37). Berlin: Springer.
D'Zmura, M. & Lennie, P. (1986). Mechanisms of color constancy. Journal of the Optical Society of America A, 3, 1662-1672.
Enoch, J. M. & Stiles, W. S. (1961). The colour change of monochromatic light with retinal angle of incidence. Optica Acta, 8, 329-358.
Ericsson, K. A. & Simon, H. A. (1984). Protocol analysis: verbal reports as data. Cambridge, MA: The MIT Press.
Evans, R. M. (1964). Variables of perceived color. Journal of the Optical Society of America, 54, 1467-1474.
Fahrmeir, L. & Hamerle, A. (1996). Grundlegende multivariate Schätz- und Testprobleme. In L. Fahrmeir, A. Hamerle & G. Tutz (Hrsg.), Multivariate statistische Verfahren (2. überarbeitete Auflage, S. 49-92). Berlin: Walter de Gruyter.
Fairchild, M. D. (1996). Refinement of the RLAB color space. Color Research and Application, 25, 338-346.
Fairchild, M. D. (1997). CIE Technical Committee 1-34, Testing Colour Appearance Models, unpublished progress report.
Fairchild, M. D. (1998). Color appearance models. Reading, MA: Addison Wesley Longman, Inc.
Fairchild, M. D. & Lennie, P. (1992). Chromatic adaptation to natural and incandescent illuminants. Vision Research, 32, 2077-2085.
Fairchild, M. D. & Reniff, L. (1995). Time course of chromatic adaptation for color-appearance judgments. Journal of the Optical Society of America A, 12, 824-833.
Farnsworth, D. (1957). The Farnsworth-Munsell 100-Hue Test for the examination of color discrimination: Manual, revised. Baltimore: Munsell Color.
Fuchs, H. (1992). Eine experimentelle Untersuchung zur Farbkonstanz. Regensburg: Roderer.
Gegenfurtner, K. (1992). PRAXIS: Brent's algorithm for function minimization. Behavior Research Methods, Instruments, and Computers, 24, 560-564.
Graham, C. H. & Brown, J. L. (1965). Color contrast and color appearances: Brightness constancy and color constancy. In C. H. Graham (Ed.), Vision and visual perception (pp. 452-478). New York: John Wiley & Sons.
LeGrand, Y. (1968). Light, colour and vision, 2nd ed. London: Chapman and Hall.
Graßmann, H. (1853). Zur Theorie der Farbenmischung. Poggendorffs Annalen der Physik und Chemie, 89, 69-84.
Gray, A. (1993). Modern differential geometry of curves and surfaces. Boca Raton, FL: CRC Press.
Hardin, C. L. (1998). Basic color terms and basic color categories. In W. G. K. Backhaus, R. Kliegl & J. S. Werner (Eds.), Color vision: perspectives from different disciplines(pp. 207-217). Berlin: Walter de Gruyter.
Heider, E. R. (1972). Universals in color naming and memory. Journal of Experimental Psychology, 93, 10-20.
Heinemann, E. G. (1955). Simultaneous brightness induction as a function of inducing- and test-field luminances. Journal of Experimental Psychology, 50, 89-96.
Helmholtz, H. v. (1867). Handbuch der physiologischen Optik. Leipzig: Voss.
Helmholtz, H. v. (1891). Kürzeste Linien im Farbensystem. Sitzungsberichte der Preussischen Akademie der Wissenschaften zu Berlin, Gesammtsitzung vom 17. Dezember, 17, 1071-1083.
Hering, E. (1920). Grundzüge der Lehre vom Lichtsinn. Sonderabdruck aus A. von Gräfe & T. Sämische (Hrsg.), Handbuch der gesammten Augenheilkunde, Teil I, Kapitel 12. Berlin: Julius von Springer.
Hunt, R. W. G. (1950). The effects of daylight and tungsten light-adaptation on color perception. Journal of the Optical Society of America, 40, 362-371.
Hunt, R. W. G. (1952). Light and dark adaptation and the perception of color. Journal of the Optical Society of America, 42, 190-199.
Hunt, R. W. G. (1989). Hue shifts in unrelated and related colors. Color Research and Application, 14, 235-239.
Hunt, R. W. G. (1995). The reproduction of colour, 5th ed. Kingston-upon-Thames: Fountain Press.
Hunt, R. W. G. & Winter, L. M. (1975). Color adaptation in picture-viewing situations. Journal of Photographic Science, 23, 112-115.
Hurvich, L. M. (1981). Color vision. Sunderland, MA: Sinauer.
Hurvich, L. M. & Jameson, D. (1955). Some quantitative aspects of an opponent-colors theory. II. Brightness, saturation, and hue in normal and dichromatic vision. Journal of the Optical Society of America, 45, 602-616.
Ikeda, M. & Ayama, M. (1980). Additivity of opponent chromatic valence. Vision Research, 20, 995-999.
Indow, T. (1988). Multidimensional studies of Munsell color solid. Psychological Review, 95, 456-470.
Irtel, H. (1989). PXL: Eine Bibliothek zur Steuerung psychologischer Experimente. Poster auf der 31. Tagung experimentell arbeitender Psychologen, Bamberg.
Irtel, H. (1991). Psychophysische Invarianzen in der Farb- und Helligkeitswahrnehmung. Berlin: Springer.
Irtel, H. (1996). Reference manual of the PXL programming environment. Unveröffentlichtes Manuskript.
Jameson, D. & Hurvich, L. M. (1955). Some quantitative aspects of an opponent colors theory. I. Chromatic responses and spectral saturation. Journal of the Optical Society of America, 45, 546-552.
Jameson, D. & Hurvich, L. M. (1956). Some quantitative aspects of an opponent colors theory. III. Changes in brightness, saturation, and hue with chromatic adaptation. Journal of the Optical Society of America, 46, 405-415.
Jameson, D. & Hurvich, L. M. (1961). Opponent chromatic induction: Experimental evaluation and theoretical account. Journal of the Optical Society of America, 51, 46-53.
Jameson, D. & Hurvich, L. M. (1964). Theory of brightness and color contrast in human vision. Vision Research, 4, 135-154.
Jameson, D. & Hurvich, L. M. (1972). Color adaptation: sensitivity, contrast, and afterimages. In H. Autrum (Series Ed.) & D. Jameson & L. M. Hurvich (Vol. Eds.), Handbook of Sensory Physiology, Vol. VII/4, Visual Psychophysics (pp. 568-581). New York: Springer.
Jameson, D. & Hurvich, L. M. (1989). Essay concerning color constancy. Annual Review of Psychology, 40, 1-22.
Jim, E. W. & Shevell, S. K. (1996). Color memory and color constancy. Journal of the Optical Society of America A, 13, 1981-1991.
Jones, L. A. & Lowry, E. M. (1926). Retinal sensibility to saturation differences. Journal of the Optical Society of America and Review of Scientific Instruments, 13, 25-34.
Kaiser, P. K. & Boynton, R. M. (1996). Human color vision, 2nd ed. Washington, DC: Optical Society of America.
Katz, D. (1930). Der Aufbau der Farbwelt: Die Erscheinungsweisen der Farben und ihre Beeinflussung durch die individuelle Erfahrung, 2. Aufl. Leipzig: Barth.
Kiener, S. (1995). Experimentelle und theoretische Untersuchungen des Zusammenhangs zwischen Farbadaptation und Farbunterscheidung. Regensburg: Roderer.
Kiener, S. (1997). On the relationship between two types of effects caused by color adaptation: Changes in color appearance and color discriminability. Journal of Mathematical Psychology, 41, 107-121.
Kraft, T. W., Schneeweis, D. M. & Schnapf, J. L. (1993). Visual transduction in human rod photoreceptors. Journal of Physiology (London), 464, 747-765.
Krantz, D. H. (1968). A theory of context effects based on cross-context matching. Journal of Mathematical Psychology, 5, 1-48.
Krantz, D. H. (1975a). Color measurement and color theory: I. Representation theorem for Grassmann structures. Journal of Mathematical Psychology, 12, 283-303.
Krantz, D. H. (1975b). Color measurement and color theory: II. Opponent colors theory. Journal of Mathematical Psychology, 12, 304-327.
Krantz, D. H., Luce, R. D., Suppes, P. & Tversky, A. (1971). Foundations of measurement: Vol. I. Additive and polynomial representations. New York: Academic Press.
Kries, J. v. (1905). Die Gesichtsempfindungen. In W. Nagel, (Hrsg.), Handbuch der Physiologie des Menschen, Bd. 3 (S. 109-279). Braunschweig: Viehweg.
Land, E. H. (1959). Color vision and the natural image: Part II. Proceedings of the National Academy of Sciences USA, 45, 636-644.
Larimer, J., Krantz, D. H. & Cicerone, C. M. (1974). Opponent process additivity - I. Red/green equilibria. Vision Research, 14, 1127-1140.
Larimer, J., Krantz, D. H. & Cicerone, C. M. (1975). Opponent process additivity - II. Yellow/blue equilibria and nonlinear models. Vision Research, 15, 723-731
L.O.T. Oriel. (1992). Lichtquellen [Katalog]. Darmstadt: Autor.
Lowry, E. M. (1931). The photometric sensibility of the eye and the precision of photometric observations. Journal of the Optical Society of America, 21, 132-136.
Lucassen, M. P. & Walraven, J. (1993). Quantifying color constancy: evidence for nonlinear processing of cone-specific contrast. Vision Research, 33, 739-757.
MacAdam, D. L. (1937). Projective transformations of ICI color specifications. Journal of the Optical Society of America, 27, 294-299.
MacAdam, D. L. (1942a). Projective transformations of color-mixture diagrams. Journal of the Optical Society of America, 32, 2-6.
MacAdam, D. L. (1942b). Visual sensitivities to color differences in daylight. Journal of the Optical Society of America, 32, 247-274.
MacAdam, D. L. (1956). Chromatic adaptation. Journal of the Optical Society of America, 46, 500-513.
MacLeod, D. I. A. & Boynton, R. M. (1979). Chromaticity diagram showing cone excitation by stimuli of equal luminance. Journal of the Optical Society of America, 69, 1183-1186.
Martin, L. C., Warburton, F. L. & Morgan, W. J. (1933). Determination of the sensitivities of the eye to differences in the saturation of colors. Medical Research Council: Special Report, 188. London: Her Majesty's Stationery.
Masterson, H. J., Sharp, G. D. & Johnson, K. M. (1989). Ferroelectric liquid-crystal tunable filter. Optics Letters, 14, 1249-1251.
Mausfeld, R. (1998). Colour perception: From Grassmann codes to a dual code for object and illumination colours. In W. G. K. Backhaus, R. Kliegl & J. S. Werner (Eds.), Color vision: perspectives from different disciplines(pp. 219-250). Berlin: Walter de Gruyter.
Mausfeld, R. & Niedereé, R. (1993). An inquiry into relational concepts of colour, based on incremental principles of colour coding for minimal relational stimuli. Perception, 22, 427-462.
Maxwell, J. C. (1856/1970). Theory of the perception of colors. Transactions of the Royal Scottish Society of Arts, 4, 394-400. Nachdruck aus D. L. MacAdam (Ed.), Sources of color science (pp. 62-66). Cambridge, MA: MIT Press.
Maxwell, J. C. (1857/1970). The diagram of colors. Transactions of the Royal Society of Edinburgh, 21, 275-298. Nachdruck aus D. L. MacAdam (Ed.), Sources of color science (pp. 67-72). Cambridge, MA: MIT Press.
Morris, H. R., Clifford, C. H., Miller, P. & Treado, P. J. (1996). Liquid crystal tunable filter raman chemical imaging. Applied Spectroscopy, 50, 805-811.
Morris, H. R., Clifford, C. H., & Treado, P. J. (1994). Imaging spectrometers for fluorescence and raman microscopy: acousto-optic and liquid crystal tunable filters. Applied Spectroscopy, 48, 857-866.
Neitz, J., Neitz, M. & Jacobs, G. H. (1993). More than three different cone pigments among people with normal color vision. Vision Research, 33, 117-122.
Newhall, S. M., Burnham, R. W. & Clark, J. R. (1957). Comparison of successive with simultaneous color matching. Journal of the Optical Society of America, 47, 43-56.
Nickerson, D. (1936). The specification of color tolerances. Textile Research, 6, 509-514.
Niedereé, R. (1993). Continuity considerations in colour perception: Why already in centre-surround stimuli colour appearances cannot be coded three-dimensionally. Technischer Bericht, Psychologisches Institut, Bonn.
Niedereé, R. & Mausfeld, R. (1997). Increment-decrement asymmetry in dichoptic matching with haploscopically superimposed backgrounds. Vision Research, 37, 613-615.
Oriel Corporation. (1994). Light sources, monochromators & spectrographs, detectors & detection systems, fiber optics. Stratford, CT: Author.
Priest, I. G. & Brickwedde, F. G. (1938). The minimum perceptible colorimetric purity as a function of dominant wavelength. Journal of the Optical Society of America, 28, 133-139.
Pokorny, J. & Smith, V. C. (1986). Colorimetry and color discrimination. In K. R. Boff, L. Kaufman & J. P. Thomas (Eds.), Handbook of perception and human performance, Volume I: Sensory processes and perception (chapter 8, pp. 8-1 - 8-51). New York et al.: John Wiley and Sons.
Pugh, E. N. (1988). Vision: Physics and retinal physiology. In R. C. Atkinson, R. J. Herrnstein, G. Lindzey & R. D. Luce (Eds.), Stevens' handbook of experimental psychology, Vol. 1 (2nd ed., pp. 75-163). New York et al.: John Wiley and Sons.
Purdy, D. M. (1931). Spectral hue as a function of intensity. American Journal of Psychology, 43, 541-559.
Richter, M. (1981). Einführung in die Farbmetrik, 2. Aufl. Berlin: Walter de Gruyter.
Robertson, A. R. (1970). A new determination of lines of constant hue. In AIC Proceedings Color 69, Stockholm 1969, Vol. 1 (pp. 395-402). Göttingen: Musterschmidt-Verlag.
Rushton, W. A. H. (1972). Visual pigments in man. In H. Autrum (Series Ed.) & H. J. A. Dartnall (Ed.), Handbook of sensory physiology, Vol. VII/1, Photochemistry of vision (pp. 364-394). New York: Springer.
Sandell, J. H., Gross, C. G. & Bornstein, M. H. (1979). Color categories in macaques. Journal of Comparative & Physiological Psychology, 93, 626-635.
Schiffman, H. R. (1990). Sensation and perception: an integrated approach, 3rd ed. New York: John Wiley & Sons.
Schnapf, J. L., Kraft, T. W. & Baylor, D. A. (1987). Spectral sensitivity of human cone photoreceptors. Nature, 325, 439-441.
Schrödinger, E. (1920). Grundlinien einer Theorie der Farbenmetrik im Tagessehen. Der Farbenmetrik II. Teil: Höhere Farbenmetrik (eigentliche Metrik der Farbe). Annalen der Physik, 63, 481-520.
Shevell, S. K. (1978). The dual role of chromatic backgrounds in color perception. Vision Research, 18, 1649-1661.
Shevell, S. K. (1982). Color perception under chromatic adaptation: equilibrium yellow and long-wavelength adaptation. Vision Research, 22, 279-292.
Shevell, S. K. & Humanski, R. A. (1984). Color perception under contralateral and binocularly fused chromatic adaptation. Vision Research, 24, 1011-1019.
Silberstein, L. & MacAdam, D. L. (1945). The distribution of color matchings around a color center. Journal of the Optical Society of America, 35, 32-39.
Siple, P. & Springer, R. M. (1983). Memory colors of familiar objects. Perception & Psychophysics, 34, 363-370.
Smith, V. C. & Pokorny, J. (1975). Spectral sensitivity of the foveal cone photopigments between 400 and 500 nm. Vision Research, 15, 161-171.
Smith, V. C. & Pokorny, J. (1996). The design and use of a cone chromaticity space: a tutorial. Color Research and Application, 21, 375-383.
Stevens, J. C. & Stevens, S. S. (1963). Brightness functions: effects of adaptation. Journal of the Optical Society of America, 53, 375-385.
Stiles, W. S. (1946). A modified Helmholtz line element in brightness-colour space. Proceedings of the Physical Society (London), 58, 41-65.
Stiles, W. S. (1959). Color vision: the approach through increment threshold sensitivity. Proceedings of the National Academy of Sciences, 45, 100-114.
Stiles, W. S., & Burch, J.M. (1959). NPL colour-matching investigation: final report. Optica Acta, 6, 1-26.
Stiles, W. S. & Crawford, B. H. (1933). The luminous efficiency of rays entering the eye pupil at different points. Proceedings of the Royal Society of London, B112, 428-450.
Suppes, P., Krantz, D. H., Luce, R. D. & Tversky, A. (1989). Foundations of measurement: Vol. II. Geometrical, threshold, and probabilistic representations. New York: Academic Press.
Tatsuoka, M. M. (1971). Multivariate analysis: techniques for educational and psychological research. New York: John Wiley & Sons, Inc.
Trabka, E. A. (1968a). On Stiles´ line element in brightness-color space and the color power of the blue. Vision Research, 8, 113-134.
Trabka, E. A. (1968b). Parameter values for nonideal detectors in color vision model. Vision Research, 8, 613-616.
Troost, J. M. & deWeert, C. M. M. (1991). Naming versus matching in color constancy. Perception & Psychophysics, 50, 591-602.
Uchikawa, K. (1983). Purity discrimination: successive vs. simultaneous comparison method. Vision Research, 23, 53-58.
Uchikawa, K. & Ikeda, M. (1981). Temporal deterioration of wavelength discrimination with successive comparison method. Vision Research, 21, 591-595.
Vos, J. J. (1978). Colorimetric and photometric properties of a 2-deg fundamental observer. Color Research and Application, 3, 125-128.
Vos, J. J. & Walraven, P. L. (1972a). An analytical description of the line element in the zone-fluctuation model of colour vision. I. Basic concepts. Vision Research, 12, 1327-1344.
Vos, J. J. & Walraven, P. L. (1972b). An analytical description of the line element in the zone-fluctuation model of colour vision. II. The derivation of the line element. Vision Research, 12, 1345-1365.
Walraven, J. (1976). Discounting the background - the missing link in the explanation of chromatic induction. Vision Research, 16, 289-295. Walraven, J. (1979). No additive effects of backgrounds in chromatic induction. Vision Research, 19, 1061-1063.
Wandell, B. A. (1982). Measurement of small color Differences. Psychological Review, 89, 281-302.
Wandell, B. A. (1985). Color measurement and discrimination. Journal of the Optical Society of America A, 2, 62-71.
Wandell, B. A. (1995). Foundations of vision. Sunderland, MA: Sinauer.
Ware, C. & Cowan, W. B. (1982). Changes in perceived color due to chromatic interactions. Vision Research, 22, 1353-1362.
Wasserman, G. S. (1978). Color Vision: an historical introduction. New York: Wiley.
Wright, W. D. (1936). The breakdown of a colour match with high intensities of adaptation. Journal of Physiology, 87, 23-33.
Wright, W. D. & Pitt, F. G. H. (1935). The colour vision characteristics of two trichromats. Proceedings of the Physical Society, 47, 205-217.
Wright, W. D. & Pitt, F. G. H. (1937). The saturation-discrimination of the trichromats. Proceedings of the Physical Society, 49, 329-331.
Würger, S. (1985). Experimentelle Überprüfung einer linearen Theorie der Adaptation beim Farbensehen. Unveröffentlichte Diplomarbeit, Universität Regensburg.
Wyszecki, G. (1978). Color matching at moderate to high levels of retinal illuminance: a pilot study. Vision Research, 18, 341-346.
Wyszecki, G. & Stiles, W. S. (1982). Color science: concepts and methods, quantitative data and formulae, 2nd ed. New York: Wiley.
Yilmaz, H. (1962). Color vision and a new approach to general perception. In E. E. Bernard & M. R. Kare (Eds.), Biological prototypes and synthetic systems, Vol. 1 (pp. 126-141). New York: Plenum Press.
Zimmer, A. C. (1980). Eine Formalisierung mnestisch stabilisierter Bezugssysteme auf der Grundlage von Toleranzsystemen. In A. Thomas & R. Brackhane (Hrsg.), Wahrnehmen, Urteilen, Handeln: Forschungen im Spannungsfeld von allgemeiner und angewandter Psychologie (S. 159-178). Bern: Huber.
Zimmer, A. C. (1982). What really is turquoise? A note on the evolution of color terms. Psychological Research, 44, 213-230.




Inhalt mit freundlicher Genehmigung von Dr. phil., Dipl.-Psych. Rainer Zwisler

Oben - Hauptseite

Contents copyright 2019 Farbe.com, 811 South Pine St, Ishpeming, MI 49849, USA.
Inhalte Farbe.com sind urheberrechtlich geschützt.
Verlinkung auf Hauptseite und Unterseiten bei Farbe.com
ist selbstverständlich erlaubt.
Email