Enhancing Interior Design with Biologically Inspired Virtual Reality: Commercial Applications of Bionic Interactive Technologies

Abstract

This paper delves into the integration of bionic virtual reality technology in interior design, highlighting its potential to enhance user experience and comfort through biologically inspired designs. Initially, the study outlines the 3I characteristics (interactive, immersive, and innovative) of bionic VR technology, categorizes its application in interior design, and discusses the benefits of VR in this context. A biocoupled functional topological analysis model is then developed, utilizing topological primitive analysis for processing biomorphic data and employing the Poisson reconstruction algorithm to generate 3D form models. The practical application of this technology is demonstrated through the creation of virtual scenarios that engage subjects' physiological sensations. Experimental results indicate significant improvements in user comfort, with physiological comfort levels increasing by approximately 20% in environments featuring green wall elements compared to standard scenes. These findings underscore the efficacy of using bionic VR technology to enhance the interactive experience in interior design, suggesting that such approaches can significantly diversify design options and better satisfy user needs. This research not only advances our understanding of the commercial applications of bionic designs but also illustrates the broader implications for biotechnologically enhanced virtual reality in various design fields.