Application‑based principles of islamic geometric patterns; state‑of‑the‑art, and future trends in computer science/technologies: a review. Heritage Science, (((2023) 11:22)Springer Open, 2023. [PUMA: Islamic körner Aesthetic-based Structural patterns 2023 knippers mahdavinejad Application-based ranjazmay technology bemanian science azari itke from:petraheim Computer geometric principles Sustainable architecture]
Computational Bamboo: Digital and Vernacular Design Principles for the Construction of a Temporary Bending-Active Structure. Impact: Design With All Senses. Proceedings of the Design Modelling Symposium 2019, 224 – 236, Springer Nature Switzerland AG, Berlin, Germany, September 2020. [PUMA: temporary bending-active knippers vernacular 2020 digital structure design itke from:petraheim bamboo construction principles computational suzuki slabbinck]
From Nature to Fabrication: Biomimetic Design Principles for the Production of Complex Spatial Structures. International Journal of Space Structures, (Vol. 28)No. 1:27 – 39, Mar 1, 2013. [PUMA: 2013 architecture biomimetic complex design fabrication from:petraheim gabler itke knippers magna menges nature principles production reichert robotic schwinn spatial structure waimer]
A methodology for transferring principles of plant movements to elastic systems in architecture. COMPUTER-AIDED DESIGN, (60)Issue C:105-117, March 2015. [PUMA: biomimetic speck knippers poppinga movements peer-reviewed transferring system itke lienhard from:petraheim 2015 plant schleicher elastic principles architecture methodology] URL
ICD/ITKE Research Pavilion 2012: Coreless Filament Winding Based on Morphological Principles of Arthropd Exosceleton. AD Architectural Design, 237:49 – 53, September 2015. [PUMA: based morphological waimer schwinn coreless reichert magna knippers pavilion robotic filament research itke from:petraheim 2015 winding icd/itke principles arthropod menges architecture exosceleton]
Application of "abstract formal patterns” for translating natural principles into the design of new deployable structures in architecture. In Wessex Institute of Technology (Eds.), Fourth International Conference on Design & Nature, Carvoeiro, Portugal, 2008. [PUMA: 2008 abstract application architecture biomimetics deploayble design formal from:petraheim itke knippers matini natural pattern principles structure translating]
Deployable technical structures on the basis of biomimetic principles. In Stefanie E. Tschegg, and Robin Seidel (Eds.), Principles and Development of Bio-inspired Materials, Proceedings of the COST Strategic Workshop, Vienna, Austria, 13-15 April 2010. [PUMA: biomimetic technical speck knippers 2010 poppinga basis structure deployable itke lienhard from:petraheim schleicher principles architecture]
Computational Bamboo: Digital and Vernacular Design Principles for the Construction of a Temporary Bending-Active Structure. Impact: Design With All Senses. Proceedings of the Design Modelling Symposium 2019, 224 – 236, Springer Nature Switzerland AG, Berlin, Germany, September 2020. [PUMA: 2020 bamboo bending-active computational construction design digital from:petraheim itke knippers principles slabbinck structure suzuki temporary vernacular]
Bio-inspired Compliant Mechanisms for Architectural Design: Transferring Bending and Folding Principles of Plant Leaves to Flexible Kinetic Structures. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, (40)Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, 2016. [PUMA: 2016 architectural architecture bending bio-inspired biomimetic compliant design diss dissertation flexible folding forschungsbericht from:petraheim itke kinetic leave mechanism plant principles schleicher structure transferring]