Leveraging Morphological Bionic Design for Innovative Spatial Structure Layouts in Residential Building Development: A Commercial Biotechnology Perspective

Abstract

The increasing environmental challenges associated with urban development have amplified the importance of integrating morphological bionic principles into residential building design to foster a sustainable relationship between humans and nature. This study investigates the application of morphological, structural, and functional bionics in the spatial structure layout of residential architecture, emphasizing their commercial and ecological potential. By leveraging methods such as bionic object feature extraction, design element transformation, and spatial modeling based on life criteria, the research identifies innovative approaches to architectural design inspired by nature. Key findings reveal that bionic design applications in residential buildings span various elements, including overall structural aesthetics, roofing, furniture, lighting, decorative patterns, and textures. Among these, bionic furniture design was the most frequently implemented, with 61 instances observed. The study underscores how bionic principles contribute to innovative residential building designs that resonate with ecological balance and urban sustainability. This research highlights the commercial viability of bionic design in residential architecture, offering scalable, nature-inspired solutions for enhancing sustainability in urban development. By bridging biotechnology and architectural design, it lays the groundwork for further interdisciplinary advancements in creating harmonious living environments and advancing the green construction industry.