Gramazio Kohler Research
News
Teaching
Research
Projects
Publications
About
Team
Open Positions
Contact
Compas XR
Compas FAB
Compas cadwork
Impact Printing
Compas Timber
AIXD: AI-eXtended Design
AI-Augmented Architectural Design
Integrated 3D Printed Facade
undefined
Think Earth SP7
Robotic Plaster Spraying
Additive Manufactured Facade
Human-Machine Collaboration
Timber Assembly with Distributed Architectural Robotics
Eggshell Benches
Eggshell
AR Timber Assemblies
CantiBox
Autonomous Dry Stone
RIBB3D
Data Driven Acoustic Design
Mesh Mould Prefabrication
Architectural Design with Conditional Autoencoders
Data Science Enabled Acoustic Design
Thin Folded Concrete Structures
FrameForm
Adaptive Detailing
Deep Timber
Robotic Fabrication Simulation for Spatial Structures
Jammed Architectural Structures
RobotSculptor
Digital Ceramics
On-site Robotic Construction
Mesh Mould Metal
Smart Dynamic Casting and Prefabrication
Spatial Timber Assemblies
Robotic Lightweight Structures
Mesh Mould and In situ Fabricator
Complex Timber Structures
Spatial Wire Cutting
Robotic Integral Attachment
Mobile Robotic Tiling
YOUR Software Environment
Aerial Construction
Smart Dynamic Casting
Topology Optimization
Mesh Mould
Acoustic Bricks
TailorCrete
BrickDesign
Echord
FlexBrick
Additive processes
Room acoustics







R-O-B, 2007-2008
Mobile Fabrication Unit
R-O-B extends the traditional prefabrication process of construction: the robot leaves the protected environment of the production hall and ventures out to the building site. Housed in a modified freight container, the R-O-B mobile fabrication unit can be used anywhere in the world. It combines the advantages of prefabrication – precision and consistent high quality – with the advantages of short transport routes and just-in-time production on the building site. Furthermore, the mobile fabrication unit is not restricted to a predefined manufacturing process or a particular building material. Making use of computer methodologies in the design and fabrication process allows for manufacturing building elements with highly specific forms, which could not be build manually.

Credits:
Gramazio Kohler Research, ETH Zurich

Client: Keller AG Ziegeleien, Pfungen
Collaborators: Michael Lyrenmann (project lead), Tobias Bonwetsch, Ralph Bärtschi
Selected experts: Viola Zimmermann (cooperate identity)
Model making: Christoph Junk
Selected contractors: Bachmann Engineering AG Zofingen (integration)

Copyright 2024, Gramazio Kohler Research, ETH Zurich, Switzerland
Gramazio Kohler Research
Chair of Architecture and Digital Fabrication
ETH Zürich HIB E 43
Stefano-Franscini Platz 1 / CH-8093 Zurich

+41 44 633 49 06
Follow us on:
Vimeo | Instagram