Innovative Design and Practice of 3D Bionic Digital Clothing Driven by AIGC
DOI:
https://doi.org/10.54097/p7qb2j94Keywords:
AIGC, 3D Digital Clothing, Bionic Design, Ecological Symbiosis, Virtual FashionAbstract
Driven by the digital economy and the "dual carbon" goal, virtual clothing has become an important direction for the green transformation of the fashion industry. Traditional bionic clothing design mostly stays in the physical fabric form imitation, while AIGC applications are limited to surface element generation, resulting in a lack of ecological logic and in-depth bionic integration in digital clothing. Taking butterflies, Venus flytraps, and orchid mantises as natural image carriers, this study constructs a complete design system of AIGC-driven 3D bionic digital clothing, explores the ecological closed loop of "creation–circulation–evolution", and realizes the upgrade from morphological bionics to ecological logical bionics. Through technical practices such as AIGC creative generation, digital fabric customization, Blender parametric modeling, and Style3D virtual display, the design and implementation of bionic digital clothing are completed, forming a reproducible technical path and design method. Research shows that this model can improve design efficiency, strengthen ecological connotation, and expand industrial value, providing practical references for green innovation and industrial development of digital fashion.
Downloads
References
[1] Ren K, Zhou HS, Zhang YP, et al. Research on virtual clothing design based on AIGC generative large model [J]. Knitting Industry, 2025(6):112-116.
[2] Xu L. Analysis on the application of AIGC technology in clothing design [J]. West Leather, 2024,46(15):42-44.
[3] Liang YC, Zhuang XH. Bionic clothing design under ecologism [J]. Tianjin Textile Science & Technology, 2023(6):9-12.
[4] Lin C, Bi PF, Liu J, et al. Design and implementation of virtual clothing try-on system based on AIGC technology [J]. Internet of Things Technologies, 2025,15(7):81-86+93.
[5] Gong QL, Li CY, Guan FD. Review on the application of CLO 3D software in the field of clothing [J]. West Leather, 2023,45(5):79-81.
[6] Miao ZY, Ding W. Exploration on the application of AI-generated clothing style design [J]. Fashion Designer, 2024(9):87-93.
[7] He K,Yao K,Zhang Q,et al.DressCode:Autoregressively Sewing and Generating Garments from Text Guidance [J].ACM Transactions on Graphics (TOG),2024,43(4):1-13. DOI: https://doi.org/10.1145/3658147
[8] Zhang TZ. Research on the design of personalized clothing customization system based on 3D virtual technology [J]. Chemical Fiber & Textile Technology, 2024,53(1):126-129.
[9] Yang XL, Xie ZX. Visual structural design of clothing based on 3D virtual clothing try-on technology [J]. Knitting Industry, 2023(2):70-74.
[10] Song Y, Xiang SM, Sun YZ. Reverse process optimization design of clothing based on virtual simulation technology [J]. Journal of Silk, 2022,59(4):59-64.
[11] Lai SY, Liu YJ. Virtual clothing design: Fashion equality under creative liberation [J]. Design, 2024,9(1):583-589. DOI: https://doi.org/10.12677/Design.2024.91070
[12] Sun YX. Deep learning for 3D garment generation: A review [J]. Textile Research Journal, 2025,95(23-24):2882-2908. DOI: https://doi.org/10.1177/00405175251335188
Downloads
Published
Issue
Section
License
Copyright (c) 2026 International Journal of Education and Humanities
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
