- 21 SepAGILE FAB, Busting the last ghosts of modernism - Hyperbody organizes an international workshop taking place from 21-25 September 2015
- 16 SepThe Robotic Building Team of Hyperbody published a paper on "Design to Robotic Production System for Informed Material Deposition" @ eCAADe 2015
- 07 SepSocialGlass was the official real-time crowd-management platform for SAIL 2015
- 02 SepInteractive Architecture for Delft, lecture and debate by prof. Kas Oosterhuis @ Beta Balie Delft
- 02 SepDr. Nimish Biloria, in an interview with B Nieuws explains the intent and the novelty of the EU Culture project METABODY
- 24 AugSeamless Variation in Design to Robotic Production Processes
- 28 JulDr Nimish Biloria speaker at the Living Machines conference on Biomimetic and Biohybrid Systems, 28-31 July 2015, Barcelona, Spain
- 27 JulJia-Rey Chang will deliver a lecture in LAVA-Axon Workshop "Kinetic Structure"
- 14 JulHyperbody's METABODY team exhibits 1:1 real-time interactive installations at the METATOPIA public event taking place 14th - 25th July at Media Lab Prado, Madrid, Spain
- 09 JulAchilleas Psyllidis gives 2 presentations at the Massachusetts Institute of Technology (MIT) for the purpose of CUPUM 2015
Dr. Nimish Biloria lectures at the Architecture Week'15 - Beyond Shape event at the University of Lusofona, Lisbon, Portugal
Lecture Title: InfoMatter
The Info-Matter lecture elaborates upon the intricate relationship between Information and Material systems within the domain of Architectural design. Living/Dynamic architecture (Real-time interactive) and bottom-up Bio-Inspired Computational Design strategies resulting in generative spatial formation shall be specifically elaborated upon in the lecture. Computational techniques ranging from Swarm computing, Multi-agent systems, Genetic Algorithms, Sensing, Actuation and Control systems as well as Engineered Material Systems shall be highlighted in the lecture. Living Machines, in the case of this lecture shall thus acquire a spatial dimension wherein biotic principles such as emergence, information regulation, adaptation, self-similarity, bio-mechanics and morphogenetic make-up are extrapolated and applied to create performance driven novel spatial solutions.