Through an in-depth analysis and evaluation of digital design in traditional graphic art, this paper focuses specifically on how blockchain can enhance the digital representation and management of these designs. The integration of AI and digital design art is taking a major leap forward, breathing new life into traditional cultural elements by harnessing AI's capabilities to create immersive interactive experiences. This paper uses fuzzy comprehensive evaluation method to evaluate the digital design of classic pattern art, highlighting the richness, interest, innovation and digitalization of pattern. Blockchain technology provides a secure and decentralized platform for the storage and verification of digital graphic art, preserving the cultural and artistic value of the design. By linking digital design to blockchain, we can create a transparent and verifiable record of the creation and ownership of each artwork, promoting ethical practices in the digital art market. The study shows that the combination of VR and AR with blockchain technology not only revolutionizes the way traditional Chinese pictorial paintings are perceived and appreciated, but also provides a powerful framework for managing and protecting related digital assets. The final scores obtained through the fuzzy comprehensive evaluation - 86.17 for richness, 89.24 for liking, 90.61 for innovation, and 91.38 for digitalization - underscore the significant advantages that the application of these technologies brings to the digital design of traditional pattern art.In conclusion, the application of blockchain technology in the realm of digital design of traditional pattern art is not merely a technological advancement but a cultural and ethical imperative. It ensures the preservation of traditional art forms in their digital manifestations, while also opening up new avenues for innovation and global appreciation.

1. Chen Daoling, Cheng Pengpeng, Simatrang Sone, et al. Kansei engineering as a tool for the design of traditional pattern. Autex Research Journal 2021; 21(1): 125-134.

2. Wang Jun, Seuc Ho Ryu. Application of traditional Chinese pattern elements in mobile game UI. Journal of Digital Convergence 2021; 19(4): 285-289.

3. Xiao Hong. Optimized soft frame design of traditional printing and dyeing process in Xiangxi based on pattern mining and edge-driven scene understanding. Soft Computing 2022; 26(23): 12997-13008.

4. Feng Zhipeng, Kiyoshi Tomimatsu. Creating Digital animation based on traditional Chinese art. International Journal of Asia Digital Art and Design Association 2018; 22(4): 1-8.

5. Baek Seona, Jungsoon Choi. A study on the design of art mask based on traditional Korean patterns and Obang color in Modern Society. Public Value 2021; 6(2): 45-51.

6. Chen Guo, Ma Fenfen, Jiang Yan, et al. Virtual reality interactive teaching for Chinese traditional Tibetan clothing. Art, Design & Communication in Higher Education 2018; 17(1): 51-59.

7. Liu Qijie. A brief analysis of the application of Chinese traditional patterns in public murals. Journal of ociology and Ethnology 2022; 4(6): 1-4.

8. Ye Li, Su Hanjun, Zhao Jing, et al. The impact of multimedia effect on art learning: Eye movement evidence from traditional Chinese pattern learning. International Journal of Art & Design Education 2021; 40(2): 342-358.

9. Bejinaru Ruxandra. Impact of digitalization on education in the knowledge economy. ManagementDynamics in the Knowledge Economy 2019; 7(3): 367-380.

10. Davenport Thomas H, Rajeev Ronanki. Artificial intelligence for the real world. Harvard BusinessReview 2018; 96(1): 108-116.

11. Yu Kun-Hsing, Andrew L Beam, Isaac S Kohane. Artificial intelligence in healthcare. Nature Biomedical Engineering 2018; 2(10): 719-731.

12. Kaplan Andreas, Michael Haenlein. Rulers of the world, unite! The challenges and opportunities ofArtificial intelligence. Business Horizons 2020; 63(1): 37-50.

13. Huang Ta-Ko, Yang Chi-Hsun, Hsieh Yu-Hsin, et al. Augmented reality (AR) and virtual reality (VR) applied in dentistry. The Kaohsiung Journal of Medical Sciences 2018; 34(4): 243-248.

14. Abich IV, Julian, Jason Parker, et al. A review of the evidence for training effectiveness with virtual reality technology. Virtual Reality 2021; 25(4): 919-933.

15. Michael Holly, Johanna Pirker, Sebastian Resch, et al. Designing VR experiences-expectations for teaching and learning in VR. Educational Technology & Society 2021; 24(2): 107-119.

16. Javaid Mohd, Abid Haleem. Virtual reality applications toward medical field. Clinical Epidemiology and Global Health 2020; 8(2): 600-605.

17. Farshid Mana, Paschen Jeannette, Eriksson Theresa, et al. Go boldly! Explore augmented reality (AR), virtual reality (VR), and mixed reality (MR) for business. Business Horizons 2018; 61(5): 657-663.

18. Murray Janet H. Virtual/reality: how to tell the difference. Journal of Visual Culture 2020; 19(1): 11-27.

19. Kaplan Alexandra D, Cruit Jessica, Endsley Mica, et al. The effects of virtual reality, augmented reality, and mixed reality as training enhancement methods: A meta-analysis. Human Factors 2021; 63(4): 706-6.

20. Pan Xueni, Antonia F de C Hamilton. Why and how to use virtual reality to study human social nteraction: The challenges of exploring a new research landscape. British Journal of Psychology 2018;109(3): 395-417.

21. Zhu Lingyan. Research and application of AHP-fuzzy comprehensive evaluation model. Evolutionary Intelligence 2022; 15(4): 2403-2409.

22. Li X K, X M Wang, L Lei. The application of an ANP-Fuzzy comprehensive evaluation model to assess lean construction management performance. Engineering, Construction and Architectural Management 2020; 27(2): 356-384.

23. Bakhtiyorovich, Kamolov Iftikhor, Tilavov Askar Shodikulovich. The role of painting in the folk art of Surkhandarya. International Journal of Human Computing Studies 2021; 3(2): 26-28.

24. Cetinic, Eva, James She. Understanding and creating art with AI: Review and outlook. ACM Transactions on Multimedia Computing, Communications, and Applications (TOMM) 2022; 18(2): 1-22.

25. Gong Yang, Xuesong Gao, Michael Li, et al. Cultural adaptation challenges and strategies during study abroad: New Zealand students in China. Language, Culture and Curriculum 2021; 34(4): 417-437.

26. Yin Yiyi, Zhuoxiao Xie. Playing platformized language games: Social media logic and the mutation of participatory cultures in Chinese online fandom. New Media & Society 2024; 26(2): 619-641.