Misconceptions About Colour Categories

Witzel, Christoph

doi:10.1007/s13164-018-0404-5

Cited by 58 publications

(96 citation statements)

References 259 publications

(422 reference statements)

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“…Even within one culture, people vary in their choice of labels, when they describe colored items (e.g. Lindsey and Brown, 2014;Brown, Isse and Lindsey, 2016;Kuriki et al, 2017), or when they sort colors into categories (reviewed in: Witzel, 2018). Response times in categorization tasks are modulated by categorical membership of colors: people are faster in categorizing and naming colors with clear category membership than colors that are more ambiguous (Bornstein and Monroe, 1980;Zimmer, 1982).…”

Section: Using Response Times As a Measure Of Individual Variability mentioning

confidence: 99%

Color naming and categorization depend on distinct functional brain networks

Siuda‐Krzywicka

Witzel

Cohen

2020

Preprint

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Naming a color can be understood as an act of categorization, i.e. identifying it as a member of category of colors that are referred to by the same name. But are naming and categorization equivalent cognitive processes, and consequently rely on same neural substrates? Here, we used task and resting-state fMRI, as well as behavioral measures to identify functional brain networks that modulated naming and categorization of colors. Color naming and categorization response times were modulated by different resting state connectivity networks spanning from the color-sensitive regions in the ventro-occipital cortex. Color naming correlated with the connectivity between the left posterior color region, the left medial temporal gyrus, and the left angular gyrus;whereas color categorization involved the connectivity between the bilateral posterior color regions, the left frontal, right temporal and bilateral parietal areas. The networks supporting naming and categorization did not overlap, suggesting that the two processes rely on different neural mechanisms.Significance: When we name a color, we also identify it as a member of a color category, e.g. blue or yellow. Are neural processes underlying color categorization equivalent to those of color naming?Here, we address this question by measuring how individual differences in color categorization and naming response times relate to the strength of functional connections in the brain. Color naming speed correlated with left-hemispheric connectivity between the color-sensitive visual regions and the anterior temporal lobe. Color categorization speed was modulated by a different brain network, encompassing bilateral color-sensitive visual areas, and high-level executive and semantic regions.Thus, color categorization and naming performance involved distinct, non-overlapping brain networks, suggesting that the two processes depend on different neural mechanisms.

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Section: Using Response Times As a Measure Of Individual Variability mentioning

confidence: 99%

Color naming and categorization depend on distinct functional brain networks

Siuda‐Krzywicka

Witzel

Cohen

2020

Preprint

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“…Colorfulness might provide the missing link between color perception, color appearance, and color naming, a central topic in color science and in research on the relationship between perception and language (for review, see Siuda-Krzywicka, Boros, Bartolomeo, & Witzel, 2019;Witzel, 2018a;Witzel & Gegenfurtner, 2018b). Colorfulness is the attribute of a perceived color according to which the color appears to be more or less chromatic.…”

Section: Introductionmentioning

confidence: 99%

“…To explain the particular role of English prototypes it has been suggested that the prototypes of the English color categories are particularly ''salient'' and ''linguistically codable'' (Bolton, 1978;Boynton & Olson, 1990;Brown & Lenneberg, 1954;Hays, Margolis, Naroll, & Perkins, 1972;Rosch Heider, 1972;Sturges & Whitfield, 1997;Witkowski & Brown, 1982). Under the assumption that English category prototypes have a particular property due to which they correspond to the ''focus'' of universal color categories independent of language they were termed focal colors (Berlin & Kay, 1969;Rosch Heider, 1972; for review, see Witzel, 2018aWitzel, , 2018b. Regier, Kay, and Khetarpal (2007) showed that the different categories of a wide range of languages were distributed so that the color chips within the respective categories tended to be more similar than those across categories.…”

Section: Introductionmentioning

confidence: 99%

Red, yellow, green, and blue are not particularly colorful

2019

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“…One side argues that a perceptual phenomenon gives rise to the formation of consistent categories across languages; the other argues that prior knowledge of language biases individuals' perception. The literature has yet to reach a consensus regarding what drives categorical perception [RK09,Wit18].…”

Section: Categorical Perception Of Colormentioning

confidence: 99%

Examining Implicit Discretization in Spectral Schemes

Quinan

Padilla

Creem-Regehr

et al. 2019

Computer Graphics Forum

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Two of the primary reasons rainbow color maps are considered ineffective trace back to the idea that they implicitly discretize encoded data into hue‐based bands, yet no research addresses what this discretization looks like or how consistent it is across individuals. This paper presents an exploratory study designed to empirically investigate the implicit discretization of common spectral schemes and explore whether the phenomenon can be modeled by variations in lightness, chroma, and hue. Our results suggest that three commonly used rainbow color maps are implicitly discretized with consistency across individuals. The results also indicate, however, that this implicit discretization varies across different datasets, in a way that suggests the visualization community's understanding of both rainbow color maps, and more generally effective color usage, remains incomplete.

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Misconceptions About Colour Categories

Cited by 58 publications

References 259 publications

Color naming and categorization depend on distinct functional brain networks

Color naming and categorization depend on distinct functional brain networks

Red, yellow, green, and blue are not particularly colorful

Examining Implicit Discretization in Spectral Schemes

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