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Ohta Ohta (1961)
Study on the generalized color discrimination test. Report I. Color vision of normal subjectsActa Soc Ophthal Jap, 65
R. Lakowski (1964)
Age and colour vision
Lakowski Lakowski, De Beck De Beck (1973)
Age effect in the Burnham‐Clark‐Munsell color memory testDie Farbe, 22
Joaqu�n P�rez-Carpinell, Rosa Baldov�, M. Fez, Jose Castro (1998)
Color memory matching: time effect and other factorsColor Research and Application, 23
P. Siple, R. Springer (1983)
Memory and preference for the colors of objectsPerception & Psychophysics, 34
K. Ruddock (1965)
The effect of age upon colour vision. I. Response in the receptoral system of the human eye.Vision research, 5 1
S. Newhall, R. Burnham, J. Clark (1957)
Comparison of Successive with Simultaneous Color MatchingJournal of the Optical Society of America, 47
M. Pointer (2009)
A comparison of the CIE 1976 colour spacesColor Research and Application, 6
T. Wo (1966)
An advisory clinic for colour defective children.Transactions of the ophthalmological societies of the United Kingdom, 86
K. Uchikawa, M. Ikeda (1981)
Temporal deterioration of wavelength discrimination with successive comparison methodVision Research, 21
Elaine Jin, S. Shevell (1996)
Color memory and color constancy.Journal of the Optical Society of America. A, Optics, image science, and vision, 13 10
R. Burnham, J. Clark (1955)
A test of hue memory.Journal of Applied Psychology, 39
Verriest Verriest, Vandevyvere Vandevyvere, Vanderdonck Vanderdonck (1962)
Nouvelles recherches se rapportant à l'influence du sexe et de l'age sur discrimination chromatique, ainsi qu'à la signification du test 100 hue de Fansworth MunsellRev Opt Théor Instrum, 41
J. Kraft, J. Werner (1994)
Spectral efficiency across the life span: flicker photometry and brightness matching.Journal of the Optical Society of America. A, Optics, image science, and vision, 11 4
M. Bieber, V. Volbrecht, J. Werner (1995)
Spectral efficiency measured by heterochromatic flicker photometry is similar in human infants and adultsVision Research, 35
Verriest Verriest, De Coninck De Coninck, Uvijls Uvijls (1981)
Color vision tests in children. Part IVAtti Fond G Ronchi, 36
P. Graf (1990)
Life-span changes in implicit and explicit memoryBulletin of the psychonomic society, 28
W. Cook (1931)
Ability of Children in Color DiscriminationChild Development, 2
M. Mäntyjärvi (2004)
Normal test scores in the Farnsworth–Munsell 100 hue testDocumenta Ophthalmologica, 102
K. Uchikawa (1983)
Purity discrimination: Successive vs simultaneous comparison methodVision Research, 23
V. Hamwi, C. Landis (1955)
Memory for ColorThe Journal of Psychology, 39
K. Ohtani (1978)
[Color vision of children: studies on development of the color discrimination ability and blue vision--discussion on hue arrangement test (author's transl)].Nippon Ganka Gakkai zasshi, 82 10
N. Cowan (1997)
The development of memory in childhood
A. Petzold, L. Sharpe (1998)
Hue memory and discrimination in young childrenVision Research, 38
K. Amano, K. Uchikawa, I. Kuriki (2002)
Characteristics of color memory for natural scenes.Journal of the Optical Society of America. A, Optics, image science, and vision, 19 8
K. Shinomori, B. Schefrin, John Werner (2001)
Age-related changes in wavelength discrimination.Journal of the Optical Society of America. A, Optics, image science, and vision, 18 2
Verriest Verriest (1970)
La variation de la courbe spectrale photopique d'efficacité lumineuse relative chez les sujets normauxNouv Rev Opt Appl, 1
J. Pérez-Carpinell, M. Fez, R. Baldoví, J. Soriano (1998)
Familiar objects and memory colorColor Research and Application, 23
Verriest Verriest, Uvijls Uvijls, Aspinall Aspinall, Hill Hill (1979)
The lightness discrimination testBull Soc Belge Ophthal, 183
G. Verriest (1970)
La variation de la courbe spectrale photopique d'efficacité lumineuse relative chez les sujets normauxJournal of Optics, 1
A. Robertson (1977)
The CIE 1976 Color-Difference FormulaeColor Research and Application, 2
David Nguyen-Tri, O. Overbury, J. Faubert (2003)
The role of lenticular senescence in age-related color vision changes.Investigative ophthalmology & visual science, 44 8
K. Knoblauch, F. Vital-Durand, J. Barbur (2001)
Variation of chromatic sensitivity across the life spanVision Research, 41
Ohtani Ohtani (1978)
Color vision of children: Studies on development of the color discrimination ability and blue vision. Discussion on hue arrangement testActa Soc Ophthal Jap, 82
J. Pérez-Carpinell, V. Camps, J. Diaz (2003)
Color memory in protanomals and deuteranomals: Matching time effectColor Research and Application, 28
J. Pérez-Carpinell, V. Camps, M. Trottini, C. Pérez-Baylach (2006)
Color memory in elderly adultsColor Research and Application, 31
G. Verriest, A. Uvijls, P. Aspinall, A. Hill (1979)
The lightness discrimination test.Bulletin de la Societe belge d'ophtalmologie, 183
H. Seliger (2002)
Measurement of memory of colorColor Research and Application, 27
S. Mecklenbräuker, Almut Hupbach, W. Wippich (2001)
What colour is the car? Implicit memory for colour information in childrenQuarterly Journal of Experimental Psychology, 54
G. Verriest (1963)
Further studies on acquired deficiency of color discrimination.Journal of the Optical Society of America, 53
W. Swanson, G. Fish (1996)
Age-related Changes in the Color-match—Area EffectVision Research, 36
The methods of simultaneous and memory color matching have been studied for a set of five Munsell color samples by 50 children, 25 boys and 25 girls (ranging in age from 9 to 11 years). By comparison between this group and one of 50 young adult observers, we can deduce the following: (a) In children, as in young adults, the mean CIELAB total color difference, ΔE*ab, in simultaneous color matching is lower than the ΔE*ab by memory color matching. (b) Children matched reference test worse than young adults for orange, bluish green (only boys and men) and yellow green (only girls and women). (c) While men remember, independently of age and delay time, violet reference test worse than women (P = 0.02), boys remember, independently of delay time, reference test worse than girls for orange (P = 0.026) and pink (P = 0.049). (d) In short‐term memory, boys remember the reference test better than girls for bluish green (P = 0.022); girls remember yellow green reference test worse than women (P = 0.034). (e) Chroma is the perceptual color attribute that best explains sex differences, although that depends upon the reference color test considered. © 2008 Wiley Periodicals, Inc. Col Res Appl, 33, 372–380, 2008
Color Research & Application – Wiley
Published: Oct 1, 2008
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