Chapter 5: Integrating Bioengineering Principles in Interior Eco-Design for Promoting Artificial Intelligence (AI) and Sustainable Usability Responsible Functionality
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Published:2026
Mai Ahmed Fakhrey Farahat Mousa, 2026. "Integrating Bioengineering Principles in Interior Eco-Design for Promoting Artificial Intelligence (AI) and Sustainable Usability Responsible Functionality", Sustainability, Resilience, and Inclusiveness through Human-Centred Architecture and Design, Asmaa Ibrahim, Anna Visvizi, Mady Mohamed, Mohammed F. M. Mohammed
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Abstract
This chapter explores the integration of bioengineering principles in interior eco-design to enhance artificial intelligence (AI) and promote sustainable, responsible functionality. It examines how biomimicry, biophilic design, and other bioengineering concepts improve occupant well-being and reduce environmental impact.
Through a literature review and case studies, the chapter identifies the benefits and challenges of incorporating bioengineering in interior design and proposes a framework for its integration. Findings suggest that bioengineering enhances AI performance and fosters sustainability in interior spaces. This chapter contributes to the emerging field of eco-design, offering insights for designers, architects, and engineers to create intelligent, dynamic, and environmentally responsible interiors.
By understanding human sensory interactions with the environment, designers can adopt a biomimetic approach that aligns with natural systems. Human sensory systems have evolved to respond positively to natural environments, promoting health, comfort, and productivity. Designing interiors that replicate these sensory experiences supports well-being while minimizing environmental impact.
Furthermore, natural systems exhibit inherent sustainability, resilience, and efficiency. Integrating these principles into interior architecture allows for the creation of adaptable, low-impact spaces that function harmoniously with both AI technologies and ecological systems.
