Integrating Bioinformatics with Bionic Virtual Reality for Advanced Ceramic Art Design

This paper explores the synergy between bioinformatics and bionic virtual reality technologies to enhance the creative process and functional analysis in ceramic art design. By integrating the principles of bioinformatics with bionic virtual reality, we develop a novel approach for creating ceramic artworks that not only mimic biological forms in shape, color, texture, and function but also leverage computational models to predict and optimize these properties. We employed a bionic virtual technology framework to construct a dynamic ceramic art design model, facilitating the realization of biologically inspired aesthetics and functionalities. Our case study involved students from three ceramic art classes at the School of Ceramic Design, School B, who utilized this integrated technology for their projects. The artworks were assessed on practicality, economy, aesthetics, and marketability, with average ratings of 6.20, 5.55, 6.93, and 6.67 respectively, all scores indicating the effectiveness of bioinformatic-enhanced bionic designs in meeting contemporary aesthetic and market demands. The results demonstrate that the use of bioinformatics in bionic virtual reality not only captures the aesthetic preferences of modern society but also enhances the value and innovation potential of ceramic art designs, thereby driving forward the ceramic design industry. © 2024, Journal of Commercial Biotechnology. All rights reserved.