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- 18 JanHenriette Bier is invited speaker at Facility for Future taking place 18-20 January in 's-Hertogenbosch
- 02 JanJanuary 2nd - January 8th 2017: Dr Nimish Biloria to Lecture and act as External Critique at the Kuwait University.
- 28 DecNext Generation Building issue #3 on Robotic Building edited by Henriette Bier is available now!
- 19 DecDr. Nimish Biloria appointed as Scientific Reviewer for the EKSIG2017 Conference >> ALIVE. ACTIVE. ADAPTIVE.
- 19 DecDr. Nimish Biloria appointed as Scientific Reviewer for the Journal of Mechanical Engineering Science, SAGE Publishing.
- 16 DecProf. Kas Oosterhuis lectures at the KIVI event "The Experience of Movement" at Stedelijk Museum Amsterdam
- 28 NovRegistration for MSc 2 on Robotic Building starting February 2017 opened just now
- 24 NovDr. Nimish Biloria will deliver a Keynote Lecture and operates as a workshop tutor for the Agile Fab International workshop at UniSA
- 22 NovDr. Nimish Biloria will deliver a Keynote Lecture at University of Technology Sydney, Advanced Construction Research Group
- 17 NovAchilleas Psyllidis is defending his PhD dissertation on November 17, 2016 at 12:30h
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From 4th to the 18th of November, Hyperbody organizes a Parametric Design Design and Prototyping workshop at Southeast University of China, located in Nanjing City China. Tutor: Han Feng (PhD candidate, Hyperbody, TU Delft, the Netherlands)
The relation between form and component is one of the hot spots of Digital Architecture. The popular workflow starts with a given form, and then populates a set of customized components to finalize the geometry . The advantage of this workflow lies in its efficiency, say by simplifying the complex design problem into smaller ones (form design, surface subdivision design and component design), effective local strategies can be devised and applied. This workshop will take a brief examination of the form2component workflow, and then focus on an inversed workflow, say component2form, which means starts with the design of a set of parametric component with clear connectivity logic, and then play with these fabricated component to realize form finding in a bottom up manner.
In the hands-on phrase of this workshop, students will work in small groups of 3-5 persons. Each group will design and produce their own physical components and creatively assemble them to search for the final form. During this physical form finding process, students will also apply the CAD model made in this workshop to fast produce the needed components. Each group shall finish two physical models out of the same set of components for comparison.