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- 06 SepInterview Chris Kievid & Jelle Feringa in B-Nieuws #1 on Hyperbody's recent focus on Robotic Fabrication
- 16 AugHyperbody PhD candidate Alireza Hakak won the first prize in an open design competition
- 03 AugHenriette Bier and Christian Friedrich members of the reviewing committee for: Rethinking the Human in Technology-Driven Architecture
- 30 JulPublication "Architecture as a Multi-Agent System" by Tomasz Jaskiewicz in Volume #28: Internet of Things
- 28 JulInterview Kas Oosterhuis on Process, Timelessness and RealTime in Architecture
- 19 JulPaper presentation Xin Xia at the ENHSA/EAAE Conference - Rethinking the Human in Technology-Driven Architecture
- 12 JulTEDxDelft will feature Kas Oosterhuis as speaker — Ideas spreading everywhere
- 01 JulURBAN FLUX workshop @ Harbin Institute of Technology : 25th June - 9th July 2011
- 29 JunDr. Henriette Bier will be presenting her paper "Robotic Environments" at ISARC 2011
- 27 JunLecture and paper by Alireza Mahdizadeh Hakak and Nimish Biloria @ iVERG Conference
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Monday 24th April 2017 at Dessau Institute of Architecture (DIA) : Midterm Review MSc 2 Design Studio D2RP&O
http://ip.hyperbody.nl
D2RP&O is organised in collaboration with Dessau Institute of Architecture (DIA) and will involve two workshops organised at TUD and DIA, respectively, at which students from both institution will participate. D2RP focuses on linking design to materialisation by integrating all functionalities (from structural strength, to thermal insulation and climate control) in the design of building components. This is implemented by employing novel multi-performative D2RP strategies. New materials are developed for the robotic production of multi-material building components and novel robotic production and assembly tools are deployed for testing the blueprint of future robotic building. D2RP&O establishes the framework allowing successful implementation of robotic production and operation at building scale. The main consideration is that in architecture and building construction the factory of the future employs building materials and components that can be robotically processed and assembled. D2RP&O processes incorporate material properties in design, control all aspects of the processes numerically, and utilise parametric design principles that can be linked to the robotic production. Virtual modelling and simulation interface the production and real-time operation of physically built space establishing thereby an unprecedented design to production and operation feedback loop.