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Mostafa, S., Awaad, A., Sherif, R., Yehia, M. (2025). The Role of Bionics in Enhancing Sustainability Principles in Interior Design. Journal of Design Sciences and Applied Arts, 6(2), 382-390. doi: 10.21608/jdsaa.2025.377099.1487
Sara Mostafa; Amal Awaad; Rehab Sherif; Maryhan Yehia. "The Role of Bionics in Enhancing Sustainability Principles in Interior Design". Journal of Design Sciences and Applied Arts, 6, 2, 2025, 382-390. doi: 10.21608/jdsaa.2025.377099.1487
Mostafa, S., Awaad, A., Sherif, R., Yehia, M. (2025). 'The Role of Bionics in Enhancing Sustainability Principles in Interior Design', Journal of Design Sciences and Applied Arts, 6(2), pp. 382-390. doi: 10.21608/jdsaa.2025.377099.1487
Mostafa, S., Awaad, A., Sherif, R., Yehia, M. The Role of Bionics in Enhancing Sustainability Principles in Interior Design. Journal of Design Sciences and Applied Arts, 2025; 6(2): 382-390. doi: 10.21608/jdsaa.2025.377099.1487

The Role of Bionics in Enhancing Sustainability Principles in Interior Design

Article 28, Volume 6, Issue 2, June 2025, Page 382-390  XML PDF (961.59 K)
Document Type: Original Article
DOI: 10.21608/jdsaa.2025.377099.1487
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Authors
Sara Mostafa email 1; Amal Awaad1; Rehab Sherif1; Maryhan Yehia2
1Faculty of Applied Arts, October 6 University, Giza, Egypt.
2Department of Interior Design and Furniture, Faculty of Applied Arts, October 6 University, Egypt.
Abstract
The world is witnessing an increasing interest in sustainability concepts across various fields, including interior design, which seeks to create eco-friendly environments. The research problem focuses on the challenges related to finding innovative solutions to reduce environmental impact and enhance resource efficiency, along with the need to integrate the principles of bionics to develop sustainable interior design. Bionics is an innovative science that draws inspiration from natural patterns to offer environmentally effective design solutions, making it a promising approach to achieving sustainability goals.

The research aims to study the applications of bionics in interior design by analyzing practical models and comparing traditional solutions with nature-inspired ones. The study hypothesizes that applying the principles of bionics helps reduce energy consumption, enhances resource efficiency, provides better thermal and acoustic comfort, and contributes to environmental sustainability and improved quality of life.

The importance of the research lies in the role of bionics in reducing environmental impact through nature-inspired thermal insulation techniques, building materials that reduce carbon emissions, and the development of more efficient natural ventilation and lighting systems. It also emphasizes the need to raise awareness among designers and engineers about the benefits of bionics and foster collaboration across disciplines to create sustainable design solutions.

The study followed a descriptive-analytical approach, reviewing literature and analyzing specific practical models, with the research being limited to references and applications available up to the date of the study preparation.
Keywords
Bionics; Environmental Sustainability; Interior Design
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