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- 09 AprHyperbody's METABODY team collaborates with the TU Delft Robotics Institute to develop the HYPER LOOP
- 26 MarHyperbody's Robotic Building (RB) team hosts Delft Robotics Institute's monthly organised RoboCafé.
- 20 FebHyperbody Guest Researcher Serban Bodea presents the Robotic 3D Printing project at the BEMNext colloquium, CiTG, TUDelft
- 19 FebAchilleas Psyllidis collaborates with the Amsterdam Institute for Advanced Metropolitan Solutions (AMS)
- 09 FebRobotic 3D printing project prototypes will be exhibited and presented at Week van De Bouw (Construction Week) in Utrecht
- 03 FebDr. Nimish Biloria lectures at the Design-Lab, Swedish School of Textiles, University of Boras, Sweden.
- 23 JanFinal Review MSc1&3 Vertical Studio: Continuous Variation (M4H, MerweVierhavens)
- 09 JanAchilleas Psyllidis and Delft Social Data Science Lab researchers present and participate at TU Delft's 173rd anniversary
- 12 DecSina Mostafavi lectures at AA school, Algorithms and Actualization Symposium
- 10 DecFootprint 15 edited by Henriette Bier (TUD) and Terry Knight (MIT) is now available online
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Ultra Bio refers to the science and technology behind the creative exploration of the microscopic and the ultra-connectivity of the electronic age. It describes the singular voice assimilated within the cloud of ideas, references and the magnitude of diverse connections.
HyperCell- A bio-inspired evolutionary architectural component for real-time spatial adaptation
Abstract:HyperCell outlines a bio-inspired evolutionary design process with a primary focus on cellular differentiation, adaptation and self-organization via collective decision-making processes. The research thus has its roots in the science of Evolutionary Developmental Biology (Evo-Devo), Embryology and Cellular Biology, Cellular Behavior which exemplify various stages of embryonic growth, cellular behavior and development cycles of an organism. In the HyperCell research, genetic sequences are considered as sets of locally coded relational associations between multiple factors such as the amount of components, material based constraints, and geometric adaptation/degrees of freedom based adaptation abilities etc, which are embedded autonomously within each HyperCell component. Collective intelligence driven decision-making processes are intrinsic to the HypeCell logic for intelligently operating with autonomous componential systems (akin to swarm systems). This subsequently results in user and activity centric global morphology generation in real-time. Practically, the Hyper-Morphology research focuses on a 24/7 economy loop wherein real-time adaptive spatial usage interfaces with contemporary culture of flexible living within spatial constraints in a rapidly urbanizing world.