GENTs Makes an Impression: Austrian Building Award Goes to Structural Design Tool

Vienna, Oesterreich (PressExposure) January 31, 2012 -- For the first time, new types of complex load-bearing structures can now be both designed and calculated using a single computer programme. This has become possible thanks to the new software "GENTs", developed as part of a project sponsored by the Austrian Science Fund (FWF). The software combines evolutionary optimisation methods and computer-based calculation tools for the first time to create an intuitive tool for architects and engineers. This combination enables the conception of light, flexible and resource-efficient load-bearing structures out of irregular shapes. The innovative potential of the new software also impressed the jury of the Austrian Building Award and it was voted winner of the "Research and Development" category.

Beam structures support architectural masterpieces. Whether Calatrava, Foster or Coop Himmelb(l)au - those who aim high in the world of architecture inevitably need to rely on these for roofs, bridges or towers. Up to now, however, architectural creativity in this area has been subject to certain limitations, as it was deemed the more regular the structure's design, the more stable it would be. The software "GENTs" now overturns this idea, allowing irregular structures to be created which still provide a high level of stability and efficiency. This FWF project has thereby laid the foundation for a whole new range of design processes and solutions. This development achievement was officially acknowledged when the software was honoured with the 2011 Austrian Building Award.

Design (R)Evolution

Thanks to its innovative combination, the software "GENTs - Generic Exploration and Navigation Tool for Structures" enables a completely new approach to designing load-bearing structures. "This means we can now calculate irregular structures and come up with designs without being bound to particular support structure types or schemes. GENTs combines countless variations of individual structural elements which can in turn be mutated and recombined until the most effective solution is identified. The quantity of material included in the calculation is precisely sufficient to ensure stability, enabling the creation of particularly light structures," explains project leader Prof. Klaus Bollinger of the Institute of Architecture at the University of Applied Arts Vienna. The key parameters that the programme takes into account during its calculations are the shape, position and function of each element of the support structure.

Intelligent Use of Forces

Until now, the design of beam structures only allowed for the channelling of forces applied by pressure and tensile load. This led to a conventional canon of various framework typologies which were all based on triangles as basic design units, which thereby all had a high degree of regularity in common. Thanks to GENTs, bending moments can now also be factored into the design process, together with pressure and tensile load. As a result, the design no longer starts out from a simplified systematisation, but can simulate the entire complex interaction of the individual beam elements, allowing an expansion of the design options previously limited to basic triangular units. How exactly this structural optimisation works was demonstrated in extensive series of tests with up to 2.5 million calculated structures. GENTs-generated support structures show the same load-bearing capacity and deformation as traditional ones, but are up to 15 percent lighter than their veteran "rivals".

The realisation of a design based on this optimisation can now be seen at the Airail Center Frankfurt. Here, a bridge is being built for a mini-metro based on a GENTs design, with the calculative possibilities for structural optimisation, allowing the creation of a dynamic appearance and function. The appearance of the irregular, sinuous design supports the movement of the train as it passes through the bridge. "This design process," says project collaborator DI Arne Hofmann, "would have been inconceivable without the automated calculation and analysis provided by GENTs."

All in all, the GENTs programme, developed within the framework of an FWF project, means closer collaboration between architects and structural planners. It is therefore hardly surprising that the project team headed by Prof. Bollinger, DI Hofmann and DIDr. Preisinger, recently won the Austrian Building Award for Research and Development. The prize money of EUR 10.000 might also be seen as recognition of the importance of investment in basic research, which in this case is contributing significantly to revolutionising building culture.

Text available from Tuesday, January 31 2012, 9 am CET at: []

Scientific contact:
DI Arne Hofmann
University of Applied Arts Vienna
Oskar Kokoschka-Platz 2
1010 Vienna, Austria
T +43 / (0)1 / 955 54 54 14

Austrian Science Fund FWF:
Mag. Stefan Bernhardt
Haus der Forschung
Sensengasse 1
1090 Vienna, Austria
T +43 / (0)1 / 505 67 40 - 8111

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Press Release Submitted On: February 03, 2012 at 5:23 am
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