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- 09 AprHyperbody's METABODY team collaborates with the TU Delft Robotics Institute to develop the HYPER LOOP
- 26 MarHyperbody's Robotic Building (RB) team hosts Delft Robotics Institute's monthly organised RoboCafé.
- 20 FebHyperbody Guest Researcher Serban Bodea presents the Robotic 3D Printing project at the BEMNext colloquium, CiTG, TUDelft
- 19 FebAchilleas Psyllidis collaborates with the Amsterdam Institute for Advanced Metropolitan Solutions (AMS)
- 09 FebRobotic 3D printing project prototypes will be exhibited and presented at Week van De Bouw (Construction Week) in Utrecht
- 03 FebDr. Nimish Biloria lectures at the Design-Lab, Swedish School of Textiles, University of Boras, Sweden.
- 23 JanFinal Review MSc1&3 Vertical Studio: Continuous Variation (M4H, MerweVierhavens)
- 09 JanAchilleas Psyllidis and Delft Social Data Science Lab researchers present and participate at TU Delft's 173rd anniversary
- 12 DecSina Mostafavi lectures at AA school, Algorithms and Actualization Symposium
- 10 DecFootprint 15 edited by Henriette Bier (TUD) and Terry Knight (MIT) is now available online
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Hyperbody designs a SynSerre (Synergetic Greenhouse)
The heating and cooling of buildings is responsible for 40% of the total energy use and CO2 emission. Attaching a SynSerre to the building, e.g. the roof, reduces the heat loss of the existing building and at the same time reduces the cost of foundation and land for the greenhouse. Sincerely a synergetic solution! But will greenhouse farmers move to the roofs of buildings? Will transport of products be a problem? Can we combine with other functions? What will be the overall yearly cost and income of a SynSerre? Only a well-designed SynSerre prototype can answer these questions.