Developing a conceptual framework for bio-inspired sustainability assessment in biomimetic architecture with DGNB system

Considering the huge challenges of the effects caused by economic growth at the global level, the targeted development of sustainable innovation is an inevitable social responsibility. However, despite some progress, sustainability has not yet been incorporated into the development of large-scale production. Although bio-inspired innovations seem to offer solutions, the transfer of sustainability through the bio-inspiration process is only implicit, and the promise of bio-inspiration can only be realized through It is known as the traditional form. According to this situation, the concept of sustainability with biological model is determined by considering bio-inspiration and environmental sustainability and becomes fundamental by creating an integrated evaluation method. This concept shows the current link of sustainability assessment, which represents sustainability in construction and aspects of sustainability in biological systems. The basic evaluation structure is derived from biological systems that provide the necessary functions through the optimal use of scarce resources. Its application covers the entire development process of bio-inspired innovations, providing feedback and therefore support for decision-making with a focus on sustainability. The research method is logical reasoning and content analysis, which has the technical tools of library and document studies. Also, the basic evaluation structure of this research is the DGNB system, which seeks the principle of protecting areas that constitute natural social and cultural values. Research findings show that bio-inspired sustainability transmission is enhanced by targeted transmission and the promise of bio-inspiration to create environmentally sustainable and inspiring innovations. As it is expected that the evaluation method itself is bio-inspired, it is based on the characteristics of biological systems such as effectiveness, adaptability, multifunctionality and flexibility.