ai | xr | multispecies | circular | interior | design | architecture | cnc | cad | cam | 3d-print | laser | cutter | mill | robot | parametric | algorithmic | computational | design and make | matter | experiment | research | technology | selection | all
BIOM-Fologram
Parametric Design and XR-Based Production
Images: BIOM-Fologram-Team
2024 | Computational design and porototypical make of an architecture in an interior space
Teaching: Markus Schein & Mohamed Khaled
The project explores the design of a hybrid bio-lab ecosystem that connects physical and virtual space. The project focused on developing a modular, voxel-based environment for the Space Matter Lab, emphasizing flexibility, reuse, and low-impact construction. Through computational design methods, the project investigated new forms of spatial imagination and the relationship between digitality and materiality. The final outcome consisted of three interconnected layers: a virtual structure, a virtual interior, and a physical prototype.
xr | matter | interior | architectureparametric | computational | design and make | experiment | selection | all
Students Involved
Buse Akay, Elif Albayrak, Mohammed Tareef Alsyoufi, Amr Emara, Hanan Hossam, Inbisat Inbisat, Sanyam Jain, Nadeen Kamal, Erik Karimov, Ulas Kasikci, Atena Meshkatsadat, Arash Mokhtari, Leon Schittek, Christian Schneider, Hrithik Girish Shetty, Safoura Yakhchali, Esin Yasar
Design Visions
Images: BIOM-Fologram-Team
Physical Layer
Hands on
Images: BIOM-Fologram-Team
Physical Layer
Detailing
Images: BIOM-Fologram-Team
Virtual Layer
Images: BIOM-Fologram-Team
Seminar
Images: BIOM-Fologram-Team
Impressions
Images: BIOM-Fologram-Team
