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Investigating Color Blind User Interface Accessibility via Simulated Interfaces (2401.10357v2)

Published 18 Jan 2024 in cs.HC

Abstract: Over 300 million people who live with color vision deficiency (CVD) have a decreased ability to distinguish between colors, limiting their ability to interact with websites and software packages. User interface designers have taken various approaches to tackle the issue with most offering a high contrast mode. The Web Content Accessibility Guidelines (WCAG) outline some best practices for maintaining accessibility that have been adopted and recommended by several governments; however, it is currently uncertain how this impacts perceived user functionality and if this could result in a reduced aesthetic look. In the absence of subjective data, we aim to investigate how a CVD observer might rate the functionality and aesthetics of existing UIs. However, the design of a comparative study of CVD vs. non-CVD populations is inherently hard, therefore we build on the successful field of physiologically-based CVD models, and propose a novel simulation-based experimental protocol, where non-CVD observers rate the relative aesthetics and functionality of screenshots of 20 popular websites as seen in full color vs. with simulated CVD. Our results show that relative aesthetics and functionality correlate positively and that an operating-system-wide high contrast mode can reduce both aesthetics and functionality. While our results are only valid in the context of simulated CVD screenshots, the approach has the benefit of being easily deployable, and can help to spot a number of common pitfalls in production. Finally, we propose a AAA-A classification of the interfaces we analyzed.

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References (36)
  1. Birch, J. Worldwide prevalence of red-green color deficiency. JOSA A 2012, 29, 313–320.
  2. Rigden, C. ’The Eye of the Beholder’-Designing for Colour-Blind Users. British Telecommunications Engineering 1999, 17, 291–295.
  3. Prevalence of colour blindness in young Jordanians. Ophthalmologica 2001, 215, 39–42.
  4. Prevalence and population genetic data of colour vision deficiency among students from selected tertiary institutions in Lagos state, Nigeria. Egyptian Journal of Medical Human Genetics 2022, 23, 1–8.
  5. Colour blindness in everyday life and car driving. Acta Ophthalmologica Scandinavica 2004, 82, 436–442.
  6. Web Content Accessibility Guidelines (WCAG) 2.1. W3C World Wide Web Consortium Recommendation 05 June 2018 2018.
  7. Does color matter on web user interface design. CommIT (Communication and Information Technology) Journal 2017, 11, 17–24.
  8. Todorovic, D. Gestalt principles. Scholarpedia 2008, 3, 5345.
  9. Color revolution: toward ultra-wide color gamut displays. Journal of Physics D: Applied Physics 2021, 54, 213002.
  10. Evaluating color vision deficiency daltonization methods using a behavioral visual-search method. Journal of Visual Communication and Image Representation 2016, 35, 236–247.
  11. Karvonen, K. The beauty of simplicity. Proceedings on the 2000 conference on Universal Usability - CUU ’00 2000. https://doi.org/10.1145/355460.355478.
  12. Aesthetics in human-computer interaction: Views and reviews. Human-Computer Interaction. New Trends 2009, pp. 559–568. https://doi.org/10.1007/978-3-642-02574-7_63.
  13. Apparent usability vs. inherent usability: experimental analysis on the determinants of the apparent usability. In Proceedings of the Conference companion on Human factors in computing systems, 1995, pp. 292–293.
  14. Tractinsky, N. Aesthetics and apparent usability: empirically assessing cultural and methodological issues. In Proceedings of the Proceedings of the ACM SIGCHI Conference on Human factors in computing systems, 1997, pp. 115–122.
  15. Wandell, B.A. Foundations of vision.; sinauer Associates, 1995.
  16. An opponent-process theory of color vision. Psychological review 1957, 64, 384.
  17. Enhancing color representation for the color vision impaired. In Proceedings of the Workshop on Computer Vision Applications for the Visually Impaired, 2008.
  18. Ishihara electronic color blindness test: An evaluation study. Ophthalmology Research: An International Journal 2015, 3, 67–75.
  19. The spectral sensitivities of the middle-and long-wavelength-sensitive cones derived from measurements in observers of known genotype. Vision research 2000, 40, 1711–1737.
  20. Easton, C. Revisiting the law on website accessibility in the light of the UK’s Equality Act 2010 and the United Nations Convention on the Rights of Persons with Disabilities. International Journal of Law and Information Technology 2012, 20, 19–47.
  21. Al-Khalifa, H.S. The accessibility of Saudi Arabia government web sites: An exploratory study - universal access in the information society, 2010.
  22. Kuzma, J.M. Accessibility design issues with UK e-government sites. Government information quarterly 2010, 27, 141–146.
  23. Paul, S. Accessibility analysis using WCAG 2.1: evidence from Indian e-government websites. Universal access in the information society 2023, 22, 663–669.
  24. A Physiologically-based Model for Simulation of Color Vision Deficiency. IEEE Transactions on Visualization and Computer Graphics 2009, 15, 1291–1298.
  25. The development of the CIE 2000 colour-difference formula: CIEDE2000. Color Research & Application: Endorsed by Inter-Society Color Council, The Colour Group (Great Britain), Canadian Society for Color, Color Science Association of Japan, Dutch Society for the Study of Color, The Swedish Colour Centre Foundation, Colour Society of Australia, Centre Français de la Couleur 2001, 26, 340–350.
  26. Using patterns to encode color information for dichromats. IEEE transactions on visualization and computer graphics 2012, 19, 118–129.
  27. The composition of visual texture design on surface for color vision deficiency (CVD). Computers in Human Behavior 2019, 91, 84–96.
  28. Recoloring algorithms for colorblind people: A survey. ACM Computing Surveys (CSUR) 2019, 52, 1–37.
  29. Real-time temporal-coherent color contrast enhancement for dichromats. In Proceedings of the Computer Graphics Forum. Wiley Online Library, 2010, Vol. 29, pp. 933–942.
  30. Luminance-Preserving and Temporally Stable Daltonization 2023.
  31. User experience design: aesthetics or functionality. Managing Intellectual Capital and Innovation for Sustainable and Inclusive Society: Managing Intellectual Capital and Innovation 2015, pp. 559–565.
  32. Oxford English Dictionary., 2023.
  33. Framing the user experience. Proceedings of the SIGCHI Conference on Human Factors in Computing Systems 2008. https://doi.org/10.1145/1357054.1357190.
  34. Studying antecedents of emotional experiences in interactive contexts. Proceedings of the SIGCHI Conference on Human Factors in Computing Systems 2007. https://doi.org/10.1145/1240624.1240762.
  35. Smith, N.J. Colorspacious 2018.
  36. Clark, J. The Ishihara test for color blindness. American Journal of Physiological Optics 1924.
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Authors (2)
  1. Amaan Jamil (1 paper)
  2. Gyorgy Denes (3 papers)

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