This work is licensed under the Creative Commons Attribution 4.0 International License.
Fink, T., & Akdag Salah, A. A. (2023, April). Extending the visual arts experience: Sonifying paintings with ai. In International Conference on Computational Intelligence in Music, Sound, Art and Design (Part of EvoStar) (pp. 100-116). Cham: Springer Nature Switzerland.Search in Google Scholar
Korepanova, A., Annus, A., & Väljataga, T. (2024). MEANINGFUL USE OF GENERATIVE AI IN VISUAL ARTS EDUCATION. In INTED2024 Proceedings (pp. 4433-4441). IATED.Search in Google Scholar
Abuzuraiq, A. M., & Pasquier, P. (2024). Towards Personalizing Generative AI with Small Data for Co-Creation in the Visual Arts. In IUI Workshops.Search in Google Scholar
Cetinic, E., & She, J. (2022). Understanding and creating art with AI: Review and outlook. ACM Transactions on Multimedia Computing, Communications, and Applications (TOMM), 18(2), 1-22.Search in Google Scholar
Machado, P., Romero, J., & Greenfield, G. (2021). Artificial life and artificial intelligence advances in the visual arts. Artificial Intelligence and the Arts: Computational Creativity, Artistic Behavior, and Tools for Creatives, 3-26.Search in Google Scholar
Liu, C., Ren, Z., & Liu, S. (2021). Using design and graphic design with color research in AI visual media to convey. Journal of Sensors, 2021(1), 8153783.Search in Google Scholar
Yan, H., Wen, W., & Wang, L. (2023). Exploring the innovation of visual communication design style based on artificial intelligence technology. Applied Mathematics and Nonlinear Sciences.Search in Google Scholar
Santos, I., Castro, L., Rodriguez-Fernandez, N., Torrente-Patino, A., & Carballal, A. (2021). Artificial neural networks and deep learning in the visual arts: A review. Neural Computing and Applications, 33, 121-157.Search in Google Scholar
Caramiaux, B., & Fdili Alaoui, S. (2022). “Explorers of Unknown Planets” Practices and Politics of Artificial Intelligence in Visual Arts. Proceedings of the ACM on Human-Computer Interaction, 6(CSCW2), 1-24.Search in Google Scholar
Monser, M., & Fadel, E. (2023). A modern vision in the applications of artificial intelligence in the field of visual arts. International Journal of Multidisciplinary Studies in Art and Technology, 6(1), 73-104.Search in Google Scholar
SWARGIARY, K. (2024). EXPLORING THE IMPACT OF ARTIFICIAL INTELLIGENCE ON VISUAL ARTS: TECHNOLOGICAL ADVANCEMENTS, MARKET DYNAMICS, ETHICAL CONSIDERATIONS, AND HUMAN CREATIVITY. GOOGLE.Search in Google Scholar
He, L., & Zhu, S. (2022). Virtual reality technology in Visual design of artistic images: Analysis and applications. Scientific Programming, 2022(1), 2527623.Search in Google Scholar
Herruzo, A., & Pashenkov, N. (2019, November). “what i see is what you get” explorations of live artwork generation, artificial intelligence, and human interaction in a pedagogical environment. In International Conference on ArtsIT, Interactivity and Game Creation (pp. 343-359). Cham: Springer International Publishing.Search in Google Scholar
Gao, M., & Pu, P. (2024). Generative Adversarial Network-based Experience Design for Visual Communication: an Innovative Exploration in Digital Media Arts. IEEE Access.Search in Google Scholar
Du, W. (2024). Design of Artistic Image Generation and Interactive Painting System Based on Deep Learning. Journal of Electrical Systems, 20(7s), 3089-3104.Search in Google Scholar
Shen, Y., & Yu, F. (2021). The influence of artificial intelligence on art design in the digital age. Scientific programming, 2021(1), 4838957.Search in Google Scholar
Gu, Y., Wang, Q., & Gu, W. (2023). The innovative application of visual communication design in modern art design. Electronics, 12(5), 1150.Search in Google Scholar
Di Ma,Fan Zhang & David R. Bull. (2024). CVEGAN: A perceptually-inspired GAN for Compressed Video Enhancement. Signal Processing: Image Communication117127-.Search in Google Scholar
Xu Ma. (2024). A comparison of art style transfer in Cycle-GAN based on different generators. Journal of Physics: Conference Series(1).Search in Google Scholar
Jangwon Seo,Hyo Seok Hwang,Minhyeok Lee & Junhee Seok. (2024). Stabilized GAN models training with kernel-histogram transformation and probability mass function distance. Applied Soft Computing 112003-112003.Search in Google Scholar
XuDong Ling,ChaoRong Li,Peng Yang,Yuanyuan Huang & Fengqing Qin. (2024). TU[formula omitted] Net-GAN: A temporal precipitation nowcasting model with multiple decoding modules. Pattern Recognition Letters98-105.Search in Google Scholar
