A FASHION COLOUR COMBINATION VISUALIZATION MODEL USING GENETIC ALGORITHM
DOI:
https://doi.org/10.51406/jnset.v15i2.1679Keywords:
Colour Combination, C# programming, Fashion Design, Genetic Algorithm, Visualization, User SatisfactionAbstract
Selecting appropriate colours poses great challenge for expert fashion designers and users. At times, different coloured fabrics and textiles have to be manually placed side by side to see how well they combine. In this paper, a model was developed for fashion colour combination visualization for ladies using concepts in genetic algorithm to achieve a display of colour variations. This research involved 26 users to suggest rules that guide choosing fashion colour combination for ladies in the initial stage. Analysis of the questionnaire was carried out in an online survey site. Two of the suggestions made by the users were considered. These are light colours on dark colours and stripped colours on plain colours. The system was implemented using C# programming language and XAML. It was found to be a useful tool to users and fashion designers for the visualization of fashion colour combination for ladies.
References
Kim, S.-K., Sul, J.-H., 1998. Computer Graphics for Fashion Design Using Adobe Illustrator and Photoshop. Shinjiseowon (in Korean).
Lee, H.-S., Park, H.-S., 1998. Fashion Design. Kyungchunsa (in Korean), Seoul, Korea.
Lee, S.-J., 1999. Computer-Aided Fashion and Fabric design. Hyung-Sul Publishers Inc. (in Korean), Seoul, Korea.
Lee, S.-R., 1998. Details and Fashion Design Collection. Munyemadang (in Korean), Seoul, Korea.
Nikanishi Y. 1996a. Applying evolutionary systems to design aid system. Proceedings from Artificial Life V (Poster Presentation). pp. 147-154.
Nikanishi Y. 1996b. Capturing preference into a function using interactions with a manual evolutionary design aid system. Genetic Programming 1996 Late-Breaking Papers, pp. 133-138.
Paul, C. L., Rohrer, R., Nebesh, B. 2015. A “Design First” Approach to Visualization Innovation. IEEE computer graphics and applications, (1), 12-18.
Sharon, L. T. 1984. Inside Fashion Design. Harper & Row, New York.
Volino, P., Cordier, F., Magnenat-Thalmann, N. 2005. From early virtual garment simulation to interactive fashion design. Computer-Aided Design, 37(6), 593-60.
Zhou, Y., Dao, T. H. D., Thill, J. C., Delmelle, E. 2015. Enhanced 3D visualization techniques in support of indoor location planning. Computers, Environment and Urban Systems, 50, 15-29.
