Video Processing in Visual System for Color Detection for People with Tritanopia

Nazneen A. Pendhari*, Raghavendra R. Sedamkar**
* Assistant Professor, Department of Computer Engineering, M.H. Saboo Siddik College of Engineering, Mumbai, Maharashtra, India.
** Professor and Academic Dean, Department of Computer Engineering, Thakur College of Engineering and Technology, Mumbai, India.
Periodicity:June - August'2018
DOI : https://doi.org/10.26634/jit.7.3.14517

Abstract

Video re-coloring and wavelength adjustment algorithm that have been performed for the anomalous Trichromats subtype Tritanomaly is presented in this paper. A method to handle the weaknesses faced by the anomalous Trichromacy was proposed and finally an interface is built that will bridge the gap for the color blind to view visual media without any hindrance. The RGB to LMS theory has been utilized for the required purpose. The detailed study about the RGB to LMS theory with respect to the required equations and pseudo code pertaining to the type Tritanomaly, i.e. Blue-Yellow weakness has been proposed to be done here using color Compensation Algorithm. Certain merits include Easy Detection, RGB to LMS Mapping, and Mapping of Frames to Easy Access of Videos.

Keywords

Color Vision Deficiency (CVD), Anomalous Trichromacy, Tritanopia, Tritanomaly, Deuteranomaly, Protanopia.

How to Cite this Article?

Pendhari.N.A., & Sedamkar,R.R. (2018). Video Processing In Visual System for Color Detection for People with Tritanopia. i-manager’s Journal on Information Technology, 7(3), 17-23. https://doi.org/10.26634/jit.7.3.14517

References

[1]. Colblindor. (n.d.). Color Blindness – learn all about it. Retrieved from https://www.color-blindness.com/
[2]. Color Blindness.(n.d.). In Wikipedia. Retrieved from https://en.wikipedia.org/wiki/Color_blindness
[3]. Color Vision Testing. (2017). Waggoner. Retrieved from http://www.colorvisiontesting.com/
[4]. Daltonize. (n.d.). There is not just one color blindness. Retrieved from http://www.daltonize.org/
[5]. Huang, C. R., Chiu, K. C., & Chen, C. S. (2011). Temporal color consistency-based video reproduction for dichromats. IEEE Transactions on Multimedia, 13(5), 950-960.
[6]. Kim, H. J., Jeong, J. Y., Yoon, Y. J., Kim, Y. H., & Ko, S. J. (2012). Color modification for color-blind viewers using the dynamic color transformation. In Consumer Electronics (ICCE), 2012 IEEE International Conference on (pp. 602-603). IEEE.
[7]. Machado, G. M., Oliveira, M. M., & Fernandes, L. A. (2009). A physiologically-based model for simulation of color vision deficiency. IEEE Transactions on Visualization and Computer Graphics, 15(6), 1291-1298.
[8]. Masra, S. M. W., Shafiee, A. A. M. A., & Muhammad, M. S. (2018). Color Blind Image Correction. Universiti Malaysia Sarawak (UNIMAS), Kota Samarahan, Sarawak, Malaysia. Retrieved from http://docplayer.net/37839502- Color-blind-image-correction.html
[9]. Nigam, P. K., & Bhattacharya, M. (2013). Colour vision deficiency correction in image processing. In Bioinformatics and Biomedicine (BIBM), 2013 IEEE International Conference on (pp. 79-79). IEEE.
[10]. Oliveira, M. M. (2013). Towards more accessible visualizations for color-vision-deficient individuals. Computing in Science & Engineering, 15(5), 80-87.
[11]. Ro, Y. M., & Yang, S. (2004). Color adaptation for anomalous trichromats. International Journal of Imaging Systems and Technology, 14(1), 16-20.
[12]. Srividhya, J. P., Sivakumar, P., & Rajaram, M. (2011). The color blindness removal technique in image by using gradient map method. In Signal Processing, Communication, Computing and Networking Technologies (ICSCCN), 2011 International Conference on (pp. 24-29). IEEE.
[13]. Webexhibits. (1999). Causes of Color. Retrieved from http://www.webexhibits.org/
[14]. Yang, S., Ro, Y. M., Wong, E. K., & Lee, J. H. (2006). Color compensation for anomalous trichromats based on error score of FM-100 Hue Test. In Engineering in th Medicine and Biology Society, 2005. IEEE-EMBS 2005. 27 Annual International Conference of the (pp. 6571-6574). IEEE.
[15]. You, J. I., & Park, K. C. (2016). Image processing with color compensation using LCD display for color vision deficiency. Journal of Display Technology, 12(6), 562-566.
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