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In the next decade or so, the widespread adoption of robotics is set to transform the construction industry: building techniques will become increasingly automated both on- and off-site, dispensing with manual labour and enabling greater cost and operational efficiencies. What unique opportunities, however, does robotics afford beyond operational effectiveness explicitly for the practice of architecture? What is the potential for the serial production of non-standard elements as well as for varied construction processes? In order to scale up and advance the application of robotics, for both…mehr

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Produktbeschreibung
In the next decade or so, the widespread adoption of robotics is set to transform the construction industry: building techniques will become increasingly automated both on- and off-site, dispensing with manual labour and enabling greater cost and operational efficiencies. What unique opportunities, however, does robotics afford beyond operational effectiveness explicitly for the practice of architecture? What is the potential for the serial production of non-standard elements as well as for varied construction processes? In order to scale up and advance the application of robotics, for both prefabrication and on-site construction, there needs to be an understanding of the different capabilities, and these should be considered right from the start of the design and planning process. This issue of AD showcases the findings of the Architecture and Digital Fabrication research module at the ETH Zurich Future Cities Laboratory in Singapore, directed by Fabio Gramazio and Matthias Kohler, which explores the possibilities of robotic construction processes for architecture and their large-scale application to the design and construction of high-rise buildings. Together with other contributors, such as Philippe Morel, Neri Oxman, François Roche and Antoine Picon, they also look at the far-reaching transformations starting to occur within automated fabrication: in terms of liberation of labour, entrepreneurship, the changing shape of building sites, in-situ fabrication and, most significantly, design.

Contributors: Thomas Bock, Jelle Feringa, Philippe Morel, Neri Oxman, Antoine Picon and François Roche.

ETH Zurich contributors: Michael Budig, Norman Hack, Willi Lauer and Jason Lim and Raffael Petrovic (Future Cities Laboratory), Volker Helm, Silke Langenberg and Jan Willmann.

Featured entrepreneurs: Greyshed, Machineous, Odico Formwork Robotics, RoboFold and ROB Technologies.
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Autorenporträt
Fabio Gramazio and Matthias Kohler are architects with multi-disciplinary interests, ranging from computational design and robotic fabrication to material innovation. In 2000, they founded the architectural office Gramazio & Kohler in Zurich, where numerous award-winning designs have been realized, integrating novel architectural design into a contemporary building culture. Trained at the Swiss Federal Institute of Technology ETH Zurich, their integral approach to practice and research focuses on the interplay of digital design and material processes through advanced construction methodologies. Since 2005, Gramazio & Kohler have held the Chair for Architecture and Digital Fabrication at the Swiss Federal Institute of Technology ETH Zurich, where they have founded the world's first architectural robotic laboratory. The pioneering investigations concentrate on non-standardised architectural design and additive fabrication processes through the customised use of industrial robots.