Abstract
This project aims to design and build a device adaptable to canes for blind people that allows them to know the color of everyday objects through a tactile response. The prototype of the device identifies the colors by means of the TCS3200 color sensor that, when detecting the light reflected by the objects, converts it into an electrical signal to later process it with the Arduino Nano microcontroller and thus generate a tactile response using a servomotor. For this purpose, mechanical and electronic designs of the color recognition and representation systems using the Feelipa color code were developed, and a functional prototype of the adaptive device that identifies primary colors was developed. Algorithms for the classification of secondary colors from their RGB values continue to be developed, and the mechanical designs are being improved to take into account aesthetic and ergonomic aspects that facilitate their use
Publisher
Corporacion Universitaria Comfacauca - Unicomfacauca
Reference6 articles.
1. V. Kasa y S. Franz. Prototipo de gafas para la detección de obstáculos mediante vibraciones para personas invidentes basado en la tecnología Arduino. Disponible en: http://repositorio.umsa.bo/xmlui/handle/123456789/27803
2. N. Nowshin, S. Shadman S, S. Joy, et al. An intelligent walking stick for the visually-impaired people. International Journal of Online and Biomedical Engineering, 13(11), pp. 94-101, 2017.
3. P. Akhil, R. Akshara, R. Athira, et al. Smart blind walking stick with integrated sensor. Materials Proceedings, 10(1), 2022.
4. Feelipa Color Code. For the Visually Impaired. Disponible en: https://feelipa.com/for-visually-impaired/
5. K. Marcillo Parrales y B. D. Collantes Rodríguez. Diseño de un prototipo de un bastón inteligente con sensores para personas con discapacidad visual y física en la carrera de ingeniería en computación y redes. UNESUM. Facultad de Ciencias Técnicas. 2020.