👗🤖 FashionAIStudio is an innovative project that combines artificial intelligence with fashion design, allowing users to create virtual fashion designs using the power of AI.
FashionAIStudio is a virtual fashion design platform that leverages the capabilities of generative AI models to generate unique and creative fashion designs. Users can interact with the platform to explore different styles, experiment with colors and patterns, and generate personalized fashion designs tailored to their preferences.
- Run
FashionAIStudio.ipynb
to start creating your own fashion designs!
🎨 Creative Design Generation: Utilize advanced generative AI models to create original and stylish fashion designs.
👚 Customization Options: Customize your designs by adjusting parameters such as colors, patterns, and styles to create unique fashion statements.
🤖 AI-Powered Recommendations: Receive personalized fashion recommendations based on your preferences and style preferences.
📷 Visualize Designs: Visualize your fashion designs in real-time and explore how they look from different angles and perspectives.
Different fashion designs generated with FashionAIStudio using various prompts.🚀 Contributions to FashionAIStudio are welcome! Whether you're interested in adding new features, fixing bugs, or improving documentation, feel free to fork the repository and submit a pull request.
📝 This project is licensed under the MIT License, which means you're free to use, modify, and distribute the code for personal or commercial purposes. Attribution is appreciated but not required.
📧 For any inquiries or feedback, please contact us at rdreamstd@gmail.com. We'd love to hear from you!
[1] Rombach, Robin, et al. High-resolution image synthesis with latent diffusion models. CVPR 2022. (models & demo)
[2] Karras, Tero, et al. Elucidating the Design Space of Diffusion-Based Generative Models. NeurIPS 2022. (code)
[3] Luo, Simian, et al. Latent Consistency Models: Synthesizing HR Images with Few-Step Inference. arXiv 2023. (code)
[4] Luo, Simian, et al. LCM-LoRA: A Universal Stable-Diffusion Acceleration Module. arXiv 2023.