A computational method for predicting color palette discriminability

Stephen Westland; Graham Finlayson; Peihua Lai; Qianqian Pan; Jie Yang; Yun Chen

doi:10.1002/col.22927

A computational method for predicting color palette discriminability

Stephen Westland^*, Graham Finlayson, Peihua Lai, Qianqian Pan, Jie Yang, Yun Chen

^*Corresponding author for this work

School of Arts and Design

Research output: Contribution to journal › Article › peer-review

Abstract

Automatic analysis of images is increasingly being used to generate color insights and this has led to various methods for generating palettes. Several studies have recently been published that explore methods to predict the visual similarity between pairs of palettes and these methods are often used to evaluate different generative methods. This work is concerned with being able to predict visual similarity between color palettes. Three data sets (two of which were previously published) are used to evaluate two methods for predicting visual similarity between palettes. A novel palette-difference metric (based on the Hungarian algorithm) is compared to the previously published minimum color difference model (MICD) and was found to agree better with the visual data for two of the three data sets. Agreement between models and visual data was also better for CIEDE2000 (1, 2) than for CIELAB metrics.

Original language	English
Pages (from-to)	465-473
Number of pages	9
Journal	Color Research and Application
Volume	49
Issue number	5
DOIs	https://doi.org/10.1002/col.22927
Publication status	Published - 1 Sept 2024

Keywords

color difference
color palette
modeling
psychophysics

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10.1002/col.22927

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title = "A computational method for predicting color palette discriminability",

abstract = "Automatic analysis of images is increasingly being used to generate color insights and this has led to various methods for generating palettes. Several studies have recently been published that explore methods to predict the visual similarity between pairs of palettes and these methods are often used to evaluate different generative methods. This work is concerned with being able to predict visual similarity between color palettes. Three data sets (two of which were previously published) are used to evaluate two methods for predicting visual similarity between palettes. A novel palette-difference metric (based on the Hungarian algorithm) is compared to the previously published minimum color difference model (MICD) and was found to agree better with the visual data for two of the three data sets. Agreement between models and visual data was also better for CIEDE2000 (1, 2) than for CIELAB metrics.",

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doi = "10.1002/col.22927",

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T1 - A computational method for predicting color palette discriminability

AU - Westland, Stephen

AU - Finlayson, Graham

AU - Lai, Peihua

AU - Pan, Qianqian

AU - Yang, Jie

AU - Chen, Yun

PY - 2024/9/1

Y1 - 2024/9/1

N2 - Automatic analysis of images is increasingly being used to generate color insights and this has led to various methods for generating palettes. Several studies have recently been published that explore methods to predict the visual similarity between pairs of palettes and these methods are often used to evaluate different generative methods. This work is concerned with being able to predict visual similarity between color palettes. Three data sets (two of which were previously published) are used to evaluate two methods for predicting visual similarity between palettes. A novel palette-difference metric (based on the Hungarian algorithm) is compared to the previously published minimum color difference model (MICD) and was found to agree better with the visual data for two of the three data sets. Agreement between models and visual data was also better for CIEDE2000 (1, 2) than for CIELAB metrics.

AB - Automatic analysis of images is increasingly being used to generate color insights and this has led to various methods for generating palettes. Several studies have recently been published that explore methods to predict the visual similarity between pairs of palettes and these methods are often used to evaluate different generative methods. This work is concerned with being able to predict visual similarity between color palettes. Three data sets (two of which were previously published) are used to evaluate two methods for predicting visual similarity between palettes. A novel palette-difference metric (based on the Hungarian algorithm) is compared to the previously published minimum color difference model (MICD) and was found to agree better with the visual data for two of the three data sets. Agreement between models and visual data was also better for CIEDE2000 (1, 2) than for CIELAB metrics.

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KW - color palette

KW - modeling

KW - psychophysics

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A computational method for predicting color palette discriminability

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Keywords

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