Thu, 08 Feb 2024 16:56:31 +0000 Thu, 08 Feb 2024 16:56:31 +0000 https://www.grasshopper3d.com/photo/retessellate-programmable-modular-tessellations-reactive-to?context=album&albumId=2985220%3AAlbum%3A1971155 by Mostafa Alani The video below presents the design, fabrication, and programming of a modular, responsive surface. https://youtu.be/u9g06y4EUNk The surface “shape-shifts” in response to the surrounding social conditions aiming at optimizing spatial interactions and improving the occupant experience within the architectural space. The programming of the system conducted using Grasshopper and Firefly. The video is part of study that aims to develop a Dynamic Modular Tessellation (DMT), which can be used as a repetitive building block to construct the building skin system. The design of the modular unit employs “minimum inventory/maximum diversity” strategies to cover various regular and irregular tessellations. Additionally, the paper discusses possible interaction modes of the structure including preconfigured interactions, responsive interactions, and predictive interactions. Mostafa Alani https://www.grasshopper3d.com/profile/Mostafa169 https://www.grasshopper3d.com/photo/retessellate-programmable-modular-tessellations-reactive-to-1?context=album&albumId=2985220%3AAlbum%3A1971155 by Mostafa Alani A picture shows the system Assembly. The video below presents the design, fabrication, and programming of a modular, responsive surface. https://youtu.be/u9g06y4EUNk The surface “shape-shifts” in response to the surrounding social conditions aiming at optimizing spatial interactions and improving the occupant experience within the architectural space. The programming of the system conducted using Grasshopper and Firefly. The video is part of study that aims to develop a Dynamic Modular Tessellation (DMT), which can be used as a repetitive building block to construct the building skin system. The design of the modular unit employs “minimum inventory/maximum diversity” strategies to cover various regular and irregular tessellations. Additionally, the paper discusses possible interaction modes of the structure including preconfigured interactions, responsive interactions, and predictive interactions. Mostafa Alani https://www.grasshopper3d.com/profile/Mostafa169 https://www.grasshopper3d.com/photo/retessellate-programmable-modular-tessellations-reactive-to-2?context=album&albumId=2985220%3AAlbum%3A1971155 by Mostafa Alani A picture shows the interaction with the system. The video below presents the design, fabrication, and programming of a modular, responsive surface. https://youtu.be/u9g06y4EUNk The surface “shape-shifts” in response to the surrounding social conditions aiming at optimizing spatial interactions and improving the occupant experience within the architectural space. The programming of the system conducted using Grasshopper and Firefly. The video is part of study that aims to develop a Dynamic Modular Tessellation (DMT), which can be used as a repetitive building block to construct the building skin system. The design of the modular unit employs “minimum inventory/maximum diversity” strategies to cover various regular and irregular tessellations. Additionally, the paper discusses possible interaction modes of the structure including preconfigured interactions, responsive interactions, and predictive interactions. Mostafa Alani https://www.grasshopper3d.com/profile/Mostafa169