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ML Plugin Development For Rhino & Grasshopper
In order to test the understanding of the course(https://www.udemy.com/machine-learning-with-unity/learn/v4/overview), ML plugin for Grasshopper was developed.
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3D-Printed Formwork For Concrete Casting
Using FDM 3D printers to produce formworks for concrete casting, application of 3D printing technology in architecture was explored. Team: Yao Wang and Georgia Chousou Photo credit: Tom Mundy
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Rock-Print Tower
Using a robotic arm for placing a string on the packed stones, it seeks new typology for fully reversible architectural structures. Team: Jetana Ruangjun and Moon Young Jeong Photo credit: Tom Mundy
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Smart Brick
Computational design strategy for functional bricks was explored and the design was brought to physical world with sandstone binderjet 3D printer. Team: Sahar Barzani and Fernando Cena Photo credit: Tom Mundy
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Spatial Aggregations
Aggregated structure was collaboratively made between a robot that places wooden modules and a person who glues the modules.
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Light Painting
Attached with a light and a pen, the traces of robotic arm's movement produced both a two-dimensional drawing on a paper and three-dimensional sculpture in space. Team: MoonYoung Jeong, Fernando Cena, Sahar Barzani, and Zong-Ru Wu
BR41N.IO Hackathon
Fascinated with the idea of Brain-Computer Interface, its application for a smart house was tested.
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The International Summerschool “Construction Bionics” @ TU Dresden
Collaboration between researchers across fields were sought throughout the summer school program.
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Site-Specific Chairs
A series of chairs were fabricated as a part of coursework.
Advances In Architectural Geometry Workshop
Studied coding for design and structural calculations.
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Robots In Architecture Workshop
Design and fabrication of bricks were investigated through extruding clay from an end effector attached on a robotic arm.
Glass Pavilion
Provided with glass plates and aluminium connections, a pavilion was assembled on site without any blueprint. Team: Jun Sato's lab + students(Keio University and University of Tokyo)
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Tensegrity Structure
Physical tensegrity model was made to better understand the relationships between different materials.
Photogrammetry With Drone And 3D-Printing
Aerial images of the campus was taken from an UAV and the reconstructed model was printed with full-color 3D printer.
Tessellated Images
Through an introduction to a laser cutter usage, a container whose design turned images into tessellated pattern was produced.
SmartGeometry Workshop
Adaptive maze was created with tracking system to experiment with human's behavior under interactive environment.
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CAADRIA Workshop
Being Exposed to Grasshopper for the first time, environmental analysis method was learned.
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Traditional Wooden Structure
The physical model of the traditional Japanese architecture was made to foster the understanding of the structure.