Abstract
This paper explores the innovative application of sensorial regenerative biodesign materials in experimental interiors. It focuses on enhancing human perception through the five senses: smell, sound, tactile, visual, and taste. By integrating principles of circular economy, these materials contribute to sustainability while elevating the sense of beauty and well-being in interior spaces. The study examines the potential of biodesign materials to create immersive sensory experiences that challenge traditional notions of interior design. The method of composition merges biodesign principles with advanced technologies such as AI and 3D printing. By combining traditional archaic compositional theory with cutting-edge technology, the design methodology enables the creation of biodesigned material prototypes that excel in both functionality and aesthetics. This strategy aims to develop three experimental materials that enrich aesthetic and sensorial perception by enhancing the quality of the five senses within architectural spaces. Through case studies and experimental projects, the article demonstrates how sensorial biodesign materials can transform interior spaces into holistic environments that promote sensory richness and ecological balance. The findings suggest that such materials enhance aesthetic appeal and contribute to the physical and emotional well-being of occupants. Ultimately, this study positions sensorial regenerative biodesign as a pioneering approach in the field of experimental interiors, pushing the boundaries of design and sustainability.
Presenters
Caterina SposatoHead of Department, Interior Architecture and Design, Marbella Design Academy, Málaga, Spain
Details
Presentation Type
Paper Presentation in a Themed Session
Theme
Architectonic, Spatial, and Environmental Design
KEYWORDS
AI, Biodesign, Experimentation, Beauty
