Projects
- ArchiSpace: Space architecture in analogue environments
- Robotic Terrain Mapping
- Discretized and Circular Design
- CV- and HRI-supported Planting
- Lunar Architecture and Infrastructure
- Robotic Drawing
- Rhizome 2.0: Scaling-up of Rhizome 1.0
- Rietveld Chair Reinvented
- Cyber-physical Furniture
- Rhizome 1.0: Rhizomatic off-Earth Habitat
- D2RP for Bio-Cyber-Physical Planetoids
- Circular Wood for the Neighborhood
- Computer Vision and Human-Robot Interaction for D2RA
- Cyber-physical Architecture
- Hybrid Componentiality
- 100 Years Bauhaus Pavilion
- Variable Stiffness
- Scalable Porosity
- Robotically Driven Construction of Buildings
- Kite-powered Design-to-Robotic-Production
- Robotic(s in) Architecture
- F2F Continuum and E-Archidoct
- Space-Customizer
Scalable Porosity
Year: 2014-2017
Project leader: Henriette Bier
Project team: Henriette Bier, Sina Mostafavi, Ana Anton, Serban Bodea
Collaborators / Partners: 3TU Bouw, Delft Robotics Institute (DRI), Centre Pompidou, 100% Research TUD, ABB and KUKA
Funding: 50K
Scalable Porosity is exhibited 2017 at Centre Pompidou in Paris. It presents Design to Robotic Production (D2RP) methods developed by the Robotic Building team introducing porosities at different scales, ranging from micro levels, as material systems, to macro levels as spatial, structural and architectural configurations. The aim was to develop material patterns that by additive layering will generate variable porosities. Due to production process constraints within this exercise, the focus was on the porosity ranges millimetre to centimetre achieved by means of robotic material deposition.