This paper investigates the design and implementation of tree-inspired structural systems in architecture, a design approach that merges functionality, aesthetics, and a connection to nature. It emphasizes the harmonious interplay between structure and architecture, moving beyond purely structural dominance or disre-gard for limitations.
The core concept, the Tree-Shaped Structural System, draws inspiration from na-ture's efficiency and resilience. By mimicking branching systems and organic forms, these structures offer unique advantages. They can enhance natural light penetration, potentially reduce material usage, and foster a sense of place.
By examining and through the analysis of historical and contemporary case stud-ies, including the Cambridge Central Mosque, Nine Bridges Golf Club Clubhouse, and Hulunbuir Hailar Airport, the research explores the structural, aesthetic, and functional attributes of these systems. Case studies were chosen for their innova-tive use of tree-inspired concepts and their representation of various building types.
This research aims to understand design principles, the structural performance, aesthetic implications, and functional characteristics of these systems in archi-tecture. Employing a comparative analysis methodology, the study explores the relationship between tree-inspired design concepts and their impact on building performance.
Findings demonstrate the potential of tree-inspired structures to enhance natural lighting, optimize material use, and create visually appealing spaces. However, challenges related to structural complexity and integration with existing building infrastructure warrant further exploration. This research contributes to under-standing the potential of tree-inspired architecture in creating sustainable and inspiring built environments.