Abstract
The main functionalities of the application are color recognition, applying filters to the camera feed and photos from the user’s gallery, and diagnosis of color vision disorders for a green-red defect using the Ishihara test, and testing a specific area of the defect using the 100 hue test. The application includes additional functionalities, such as color descriptions, color name text-to-speech, and password authentication.
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References
Apple Developer: Human Interface Guidelines. https://developer.apple.com/design/human-interface-guidelines/. Accessed 19 Jan 2022
Colblindor: Ishihara’s Test for Colour Deficiency: 38 Plates Edition. https://www.color-blindness.com/ishiharas-test-for-colour-deficiency-38-plates-edition/. Accessed 09 May 2022
Colour Blind Awareness Inherited colour vision deficiency. http://www.colourblindawareness.org/colour-blindness/inherited-colour-vision-deficiency/. Accessed 20 Jan 2022
Hasrod, N., Rubin, A.: Defects of colour vision: a review of congenital and acquired colour vision deficiencies. African Vision Eye Health 75, 1 (2016)
Hudson, P.: SwiftUI lets us build declarative user interfaces in Swift. https://www.hackingwithswift.com/articles/191/swiftui-lets-us-build-declarative-user-interfaces-in-swift. Accessed 11 May 2022
Jenny, B., Kelso, N.V.: Color design for the color vision impaired. Cartogr. Perspect. 58, 61–67 (2007)
Michael, K., Charles, L.: Color perception (2011). https://webvision.med.utah.edu/. Accessed 10 May 2022
Molday, R.S., Moritz, O.L.: Photoreceptors at a glance. J. Cell Sci. 128(22), 4039–4045 (2015)
National Eye Institute: Color blindness. National Eye Institute, July 2019
PhonesData: phonesdata. https://phonesdata.com/en/best/screenppi/2021/. Accessed 22 Jan 2022
Pixensity: pixensity. https://pixensity.com/list/phone/. Accessed 22 Jan 2022
Pokorny, J., Smith, V.C.: Eye disease and color defects. Vision Res. 26(9), 1573–1584 (1986)
Salih, A.E., Elsherif, M., Ali, M., Vahdati, N., Yetisen, A.K., Butt, H.: Ophthalmic wearable devices for color blindness management. Adv. Mater. Technol. 5(8), 1901134 (2020)
Tecson, G.R., Calanda, F.B., Cayabyab, G.T., Reyes, F.C.: Covisance. In: Proceedings of the 2017 International Conference on Computer Science and Artificial Intelligence - CSAI 2017, ACM Press (2017)
Tuchkov, I.: Color blindness: how to design an accessible user interface. Medium, August 2018
Turgut, B.: Discriminators for optic neuropathy and maculopathy. Adv. Ophthalmol. Visual Syst. 7, 7 (2017)
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Wcisło, N., Szczepanik, M., Jóźwiak, I. (2022). Mobile Application for Diagnosing and Correcting Color Vision Deficiencies. In: Zamojski, W., Mazurkiewicz, J., Sugier, J., Walkowiak, T., Kacprzyk, J. (eds) New Advances in Dependability of Networks and Systems. DepCoS-RELCOMEX 2022. Lecture Notes in Networks and Systems, vol 484. Springer, Cham. https://doi.org/10.1007/978-3-031-06746-4_37
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