-
- 03 JulHyperbody's MSc 2 Robotic Environments projects exhibited at Science Centre and V2_
- 02 Jul Hyperbody's Robotic Building team participates with MSc 2 projects in the D2RP event taking place 2-4 July at V2_
- 27 JunLecture by Prof. Kas Oosterhuis at the Huazhong University of Science and Technology
- 27 JunAchilleas Psyllidis publishes a book chapter in Computer-Aided Architectural Design Futures: The Next City, by Springer
- 16 JunLecture by Prof. Kas Oosterhuis at Leibniz Universität Hannover
- 16 JunAchilleas Psyllidis wins the 1st Prize for his project ROUTE on Linked Open Data for Smart Cities
- 14 JunDr. Nimish Biloria appointed as a member of the OCEAN design research association
- 08 JunSmart Textiles Workshop: Hyperbody and Smart Textiles at the University of Borås
- 29 MayAchilleas Psyllidis's paper accepted for publication and demonstration at the 15th International Conference on Web Engineering (ICWE 2015)
- 29 MayKas Oosterhuis, Henriette Bier, Sina Mostafavi and Jelle Feringa lecture at InDeSem 15
-
-
Interactive morphologies: An investigation into integrated nodal networks and embedded computation processes for developing real-time responsive spatial systems
Reference:
Frontiers of Architectural Research Volume 1, Issue 3,
Frontiers of Architectural ResearchCorresponding author:
Dr. Nimish BiloriaAbstract:
The design-research illustrated in this research article focus on the emerging field of interactive architecture focusing on developing real-time information exchanging architectural bodies. These interactive bodies demonstrate a fusion between the material, the electronic and the digital domains. This fusion is explicitly attained through a synergistic merger between the fields of ambient sensing, control systems, ubiquitous computing, architectural design, pneumatic systems and computation. The resultant spatial bodies are thus visualised as complex adaptive systems, continually engaged in activities of data-exchange resulting in physical and ambient adaptations of their constituting components in response to contextual variations. Interdependent nodal networks, where every node/junction of a spatial prototype becomes a potential information hub by means of its ability to collect, process and communicate contextual data apart from working as an actuated detail owing to its ability to kinetically re-position itself in three-dimensional space is thus a critical outcome of this inter-disciplinary way of working. A strategy apt for binding material logistics with the digital to materialize dynamic spatial behaviours owing to real time data exchange between the prototypes and their context is thus embarked upon via three research and design projects, namely: Electronic Media Augmented Spatial Skins, The InteractiveWall and the Muscle Re-configured.
Link:
http://www.sciencedirect.com/science/article/pii/S2095263512000465