The innovation design of traditional Chinese auspicious patterns based on shape grammar
DOI:
https://doi.org/10.24191/idealogy.v10i2.712Keywords:
Innovative design, shape grammar, traditional Chinese auspicious patternsAbstract
The artistic expression of traditional Chinese auspicious patterns in modern design is unique and charming, and it is intersecting more and more with modern design, and there is a lack of scientific methods to analyse traditional Chinese patterns from the perspective of Western composition. The objective of this study is to explore the translation path of traditional Chinese auspicious pattern design and realize its protection and reuse. The literature analysis method is mainly used to analyse the theme and cultural connotation of the pattern, the pattern and colour are extracted by using the mapping software, the pattern and colour factor library are constructed, and the shape grammar is used to evolve the pattern design. As a result, a new pattern design scheme is generated by using the law of formal beauty, and the feasibility and effectiveness of shape grammar in the innovative design of traditional patterns are demonstrated.
Keywords: Design morphology, Gao Cheng Palace Noodle, Shape, Form
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References
Chua, D. (2014, April 25). New wave of choreographers. New Straits Times, p.7.
Gomez, M.M., Sierra, J.M.C., Jabaloyes, J., & Zarozo, Manuel. (2010). A multivariate method for analyzing and improving the use of student evaluation of teaching questionnaires: A case study. Quality Quantitative. doi: 10.1007/s11135-010-9345-5.
Gunkel, M. (2008). Guidelines for academic writing. http://www.im.ovgu.de/im_media/downloads/examinations/academic_paperwriting_MG.pdf. Accessed 20 Feb 2014.
Kahraman, C., Cevi, S., Ates, N. Y., & Gulbay, M. (2007). Fuzzy multi-crieria evaluation of industrial robotic systems. Computer & Industrial Engineering, 52, 414-433 (2007). doi: 10.1016/j.cie.2007.01.005.
Ramli, N., & Mohamad, D. (2010). On the Jaccard index with degree of optimism in ranking fuzzy numbers. In E. Hullermeier, R. Kruse, & F. Hoffman (Eds.), Information processing and management of uncertainty in knowledge-based system application (pp. 383-391). New York: Springer.
Rosen, K.H. (1988). Discrete mathematics and its applications. New York: Random House, Inc.
Abidin, S.Z., Bjelland, H.V., & Øritsland, T.A. (2008). The embodied mind in relation to thinking about form development. In Proceedings of NordDesign 2008 Conference (pp. 265-274).
Abidin, S.Z., Warell, A., & Liem, A. (2011). The significance of form elements: A study of representational content of design sketches. In Proceedings of the DESIRE'11 Conference on Creativity and Innovation in Design (pp. 21-30). https://doi.org/10.1145/2079216.2079219
Borgo, R., Kehrer, J., Chung, D. H., Maguire, E., Laramee, R. S., Hauser, H., ... & Chen, M. (2013). Glyph-based visualization: Foundations, design guidelines, techniques and applications. Eurographics (state of the art reports), 39-63.
Chao, H. (2020). The fractal artistic design based on interactive genetic algorithm. Computer-Aided Design and Applications, 17(S2), 35-45.
Chen, K. (2011). The aesthetic connotation of auspicious patterns inspires modern design. Popular Literature, 19(19), 95-96. https://doi.org/CNKI:SUN:DZLU.0.2011-19-085
Frame, M., & Mandelbrot, B. (2002). Fractals, graphics, and mathematics education.
Geng, W., & Geng, W. (2010). Computer-aided design of art patterns. The Algorithms and Principles of Non-photorealistic Graphics: Artistic Rendering and Cartoon Animation, 91-112.
Jamaludin, M.S., Zulkapli, M.F., & Zainal Abidin, S. (2013). The characteristics of form in relation to product emotion. In Proceedings of the 15th International Conference on Engineering and Product Design Education: Design Education - Growing Our Future, EPDE 2013 (pp. 716-721).
Lee, H. C., & Tang, M. X. (2009). Evolving product form designs using parametric shape grammars integrated with genetic programming. AI EDAM, 23(2), 131-158.
Li, F. (2005). Principles of composition in Chinese painting. *In* Hubei Fine Arts Publishing House.
Liu, L. (2008). A brief discussion on the meaning and influence of patterns. The Mall Modernized, 30(18), 397-398. https://doi.org/CNKI:SUN:SCXH.0.2008-18-275
Liu, L. (2011). Analysis of the composition of traditional Chinese patterns. Popular Literature, 19(19), 132-133. https://doi.org/CNKI:SUN:DZLU.0.2011-19-114
Luo, Q. (2024). Solid originality and creativity: Contemporary expression of Liang Ping's traditional blue calico pattern. Packaging Engineering, 45(4), 438-447. https://doi.org/10.19554/j.cnki.1001-3563.2024.04.049
Ma, C., & Guan, H. (2020). The subtle influence of traditional Chinese auspicious patterns on the current era. Popular Literature, 22(1), 110-111. https://doi.org/CNKI:SUN:DZLU.0.2020-01-065
Mohamed Kamil, M.J., & Abidin, S.Z. (2015). Unconscious interaction between human cognition and behaviour in everyday product: A study of product form entities through freehand sketching using design syntactic analysis. In Proceedings of the 17th International Conference on Engineering and Product Design Education: Great Expectations: Design Teaching, Research and Enterprise, E and PDE 2015 (pp. 369-374). The Design Society.
Toyong N., Abidin S.Z., & Mokhtar S. (2021). A case for intuition-driven design expertise. In: Chakrabarti A., Poovaiah R., Bokil P., Kant V. (eds) Design for Tomorrow—Volume 3. Smart Innovation, Systems and Technologies, vol 223. Springer, Singapore. https://doi.org/10.1007/978-981-16-0084-5_10
Turrin, M., Von Buelow, P., & Stouffs, R. (2011). Design explorations of performance-driven geometry in architectural design using parametric modeling and genetic algorithms. Advanced Engineering Informatics, 25(4), 656-675.
Wang, W., Zhang, Y., & Wang, X. (2022). Research on the redesign of ancient calligraphy and painting framed silk patterns in cultural and creative products. Packaging Engineering, 43(18), 302-310. https://doi.org/10.19554/j.cnki.1001-3563.2022.18.036
Wang, X., Li, Y., & Cui, Y. (2023). Research on visualization and innovative design of frog pattern factor in Lijin. Art and Design (Theory), 39(8), 51-54. https://doi.org/10.16824/j.cnki.issn10082832.2023.08.015
Wolchonok, L. (1969). The art of three-dimensional design: how to create space figures.
Xie, J. (2022). Parametric derivative design and application of traditional geometric pattern structures (Master's thesis, Xi'an University of Science and Technology). https://kns.cnki.net/KCMS/detail/detail.aspx?dbname=CMFD202401&filename=1023757498.nh
Xue, H. Z. (2002). Steps in pattern design. *In* Guangxi Fine Arts Publishing House.
Xue, Y. (2015). Analysis of the penetration of the classical aesthetic idea of the aesthetic "image" in the traditional Chinese pattern design of Yi Chuan. Beauty and the Times (M), 30(3), 110-111. https://doi.org/10.16129/j.cnki.mysdz.2015.03.052
Zainal Abidin, S., Sigurjonsson, J., Liem, A., & Keitsch, M. (2008). On the role of formgiving in design. New Perspectives in Design Education. In DS 46: Proceeding of the 10th International Conference on Engineering and Product Design Education. Universitat Politecnica de Catalnya: Barcelona, Spain 04.-05.09., 365–370.
Zambon, E. (2013). Abstract Graph Transformation-Theory and Practice.
Weiting, L., Zainal Abidin, S., & Mokhtar, S. (2024). Innovative Design of Bamboo Weaving Products - Perspective from Hunan Province. Idealogy Journal, [S.l.], Vol. 9(1), 220-242.
https://doi.org/10.24191/idealogy.v9i1.516
Zou Zhongyue,; AWANG, Nor Nazida; ANWAR, Rusmadiah. Exploring the application of design elements that combine Mixed Components with ceramic tea sets. Idealogy Journal, [S.l.], v. 9, n. 2, sep. 2024. ISSN 2550-214X. Available at: <https://idealogyjournal.com/ojs/index.php/idealogy/article/view/541>.
Bingfeng, Mei; PADIL, Md Nagib. From One to Diversity:Explore the Design Principles of Flexible Branding Visual Identity and Its Application on Design Practice. Idealogy Journal, [S.l.], v. 9, n. 2, sep. 2024. ISSN 2550-214X. Available at: <https://idealogyjournal.com/ojs/index.php/idealogy/article/view/539>.
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