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Yayın Parametric material autopsies for generative crafting(Taylor and Francis Ltd., 2025-06-23) Kavurmacıoğlu, Özgür; Ozar, Betül; Çimşit Koş, Fitnat; Delerel, ZehraThis research investigates the intersection of parametric design, AI-driven exploration, and bio-tectonic strategies to develop adaptive, ecologically responsive urban modules. By transforming industrial waste into responsive components, the study integrates digital and analog into a cohesive design process. The methodology is structured around three core practices: “Parametric Autopsies of Local Upcycling Material”, “AI-Driven Design Exploration”, and “Constructive Bio-tectonic Scenarios for Regenerative Environments”. These practices foster dynamic, site-specific solutions that align with ecological principles, creating scalable frameworks for sustainable urban regeneration. Findings demonstrate that combining parametric material autopsies, generative AI, and hybrid fabrication can lead to innovative design interfaces. These prototypes showcase the potential of integrating upcycled materials into nature responsive urban systems, paving the way for resilient, green cities that support both human and ecological well-being. This study lays the groundwork for future explorations in regenerative architecture, offering a vision for collaborative, adaptive urban environments.Yayın Transcalar bio-tectonics: unveiling responsive potential in architecture(Taylor and Francis Ltd., 2025-06-23) Çimşit Koş, Fitnat; Delerel, Zehra; Ozar, Betül; Kavurmacıoğlu, ÖzgürThis paper examines the concept of scale not merely as a measurement but as an interaction, introducing “transcalar tectonics” as an approach to address complex, multi-scalar environmental challenges. Conducted within the Transcalar Lab—a first-year architectural design studio—the study explores combining physical and digital interfaces through tectonic experimentation, contributing to the emerging field of bio-materials and bio-oriented design. Utilizing bio-materials and AI tools such as ChatGPT, Krea, Midjourney, and Runway, this research constructs a transcalar prototype that bridges micro to macro scales, highlighting the unique challenges posed by suppressed or disappearing scales. Through three iterative experiments, bio-materials are developed, AI-driven articulation potentials are explored, and a transcalar prototype is constructed. The findings reveal that micro and macro scale interactions challenge traditional form-making, shifting focus toward responsive, bio-oriented structures that transcend hierarchical scale. Ultimately, this research suggests a new paradigm in sustainable design, bridging structure and architecture with ecological, bio-responsive approach.
