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- 09 MayPh.D. Candidate Jia-Rey Chang will deliver a lecture titled as "Being immature" at the international conference of "Cultura Experimentala TDSOM"
- 08 May8th May 2017, Henriette Bier lectures at the SAWSA Open Lecture Series organised by the Welsh School of Architecture 2016/17
- 04 MayKas Oosterhuis is invited speaker at Mosque Design & Development Summit taking place 3-4 May in Dubai
- 03 MayHenriette Bier is co-founder and -editor of new Springer Series in Adaptive Environments
- 24 AprMonday 24th April 2017 at Dessau Institute of Architecture (DIA) : Midterm Review MSc 2 Design Studio D2RP&O
- 21 AprKas Oosterhuis lectures @ Craftsmanship in the Digital Age #2 Innovative Building Components
- 21 AprFriday 21st April 2017 at 14:00 in protoSPACE: Midterm Review MSc 2 Design Studio Interactive Acoustic Systems (IAS)
- 05 Apr5th April Henriette Bier gives inaugural lecture as visiting professor at Dessau Institute of Architecture
- 30 MarInterview with Henriette Bier and Sina Mostafavi published in Delta
- 27 MarKas Oosterhuis present at Discussion Panel and deliver lecture "Protospacing Prototyping" at TU Wien Research Day 2016/17
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Author- By: N. Biloria
- Date
- 04.01.2016
- Keywords
- Material engineering, Robotics, Micro-climate, Physiological support, Real-time interaction, Health and Energy, Multi-performative interiors, Scalability, Sustainable material usage
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Fibrous Smart Material Topologies initiated by Dr. Nimish Biloria has received funding from 3TU.Bouw and will be implemented in collaboration with TU Eindhoven, U Twente and EURECAT
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Fibrous Smart Material Topologies initiated by Dr. Nimish Biloria has received funding from 3TU.Bouw and will be implemented in collaboration with TU Eindhoven, U Twente and EURECAT
The project is a truly inter-disciplinary initiative for the 'designed engineering' of heterogeneous fibres with variable material behaviors to create real-time responsive interior environments (furniture systems). These smart furniture systems will embody properties of real-time adaptive temperature control, real-time structural adaptability and real-time physiological support of the human body. These properties shall be fully self-regulated (devoid of external power sources) via engineering multi-layered fibre compositions, which, can sense the forces exerted by the human body and accordingly alter their physical properties. The scale of operation is chosen deliberately, considering the time-span of one year within which we will produce of a fully operational 1:1 physical prototype and scientific material-research guidelines. A research through design approach with 3 iterations: working on the yarn (U Twente + EURECAT), textile (TUE) and product (TUD) levels shall be adopted in this research. Each iteration will consist of the development of a prototype, the creation of future usage scenarios + business possibilities and a workshop to envision future requirements. In this project, prototypes and material output will be co-designed with material scientists, architects, textile and industrial designers and will be used to assess 1) design challenges, 2) business opportunities, and 3) technical feasibility of scalable multi-performative interior systems for applications such as healthcare and future office environments.
https://www.3tu.nl/bouw/en/