Natural structural systems that have developed over millions of years illustrate how large loads can be absorbed with very little material. This is achieved by adapting the structural properties to a predominant load profile. If we succeeded in transferring these principles to structures created by people, it would be possible to significantly reduce the consumption of resources in the construction industry. As a contribution to this, the Rosenstein Pavilion was developed based on bio-inspired optimization strategies in order to demonstrate the potential of resource-efficient building.
%0 Book Section
%1 kovaleva_rosenstein_2019-1
%A Kovaleva, Daria
%A Gericke, Oliver
%A Wulle, Frederik
%A Mindermann, Pascal
%A Sobek, Werner
%A Verl, Alexander
%A Gresser, Götz T.
%B Biomimetics for architecture: learning from nature
%C Berlin, Basel
%D 2019
%I Birkhäuser
%K imported sobek
%P 92--101
%T Rosenstein Pavilion: a lightweight concrete shell based on principles of biological structures
%X Natural structural systems that have developed over millions of years illustrate how large loads can be absorbed with very little material. This is achieved by adapting the structural properties to a predominant load profile. If we succeeded in transferring these principles to structures created by people, it would be possible to significantly reduce the consumption of resources in the construction industry. As a contribution to this, the Rosenstein Pavilion was developed based on bio-inspired optimization strategies in order to demonstrate the potential of resource-efficient building.
%@ 978-3-0356-1786-3
@incollection{kovaleva_rosenstein_2019-1,
abstract = {Natural structural systems that have developed over millions of years illustrate how large loads can be absorbed with very little material. This is achieved by adapting the structural properties to a predominant load profile. If we succeeded in transferring these principles to structures created by people, it would be possible to significantly reduce the consumption of resources in the construction industry. As a contribution to this, the Rosenstein Pavilion was developed based on bio-inspired optimization strategies in order to demonstrate the potential of resource-efficient building.},
added-at = {2023-11-27T15:10:57.000+0100},
address = {Berlin, Basel},
author = {Kovaleva, Daria and Gericke, Oliver and Wulle, Frederik and Mindermann, Pascal and Sobek, Werner and Verl, Alexander and Gresser, Götz T.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2f6e2f73aac5433a1bb05c419051b3f48/jmueller},
booktitle = {Biomimetics for architecture: learning from nature},
interhash = {184086ce170b5010ddad9d2ee4422562},
intrahash = {f6e2f73aac5433a1bb05c419051b3f48},
isbn = {978-3-0356-1786-3},
keywords = {imported sobek},
pages = {92--101},
publisher = {Birkhäuser},
timestamp = {2023-11-27T15:10:57.000+0100},
title = {Rosenstein {Pavilion}: a lightweight concrete shell based on principles of biological structures},
year = 2019
}