Topology-Driven Form-Finding: Interactive Computational modelling of bending-active and textile hybrid structures through active-topology based real-time physics simulations, and ist emerging design potentials. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, March 2020. [PUMA: 2020 active-topology bending-active computational diss dissertation form-finding from:petraheim hybrid interactive itke modelling simulation structure suzuki textile topology-driven]
Topology-Driven Form-Finding: Interactive Computational modelling of bending-active and textile hybrid structures through active-topology based real-time physics simulations, and ist emerging design potentials. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, March 2020. [PUMA: 2020 active-topology bending-active computational diss form-finding hybrid interactive itke modelling simulation structure suzuki textile topology-driven]
Integrated Design Methods for the Simulation of Fibre-based Structures. In Cristoph Gengnagel, Axel Kilian, J. Nembrini, and F Scheurer (Eds.), Rethinking Prototyping, Proceedings of 4th Design Modelling Symposium Berlin 2013, 1 -14, Universität der Künste, Berlin, 2013. [PUMA: waimer schwinn methods reichert simulation 2013 magna knippers engineering structure design itke from:petraheim menges architecture fibre-based fibre]
Fibrous structures: an integrative approach to design computation, simulation and fabrication for lightweight, glass and carbon fibre composite structures in architecture based on biomimetic design principles. Computer-Aided Design, (52):27-39, July 2014. [PUMA: schwinn glass reichert magna knippers computation structure itke from:petraheim 2014 fabrication menges fibre approach waimer simulation robotic lightweight integrative peer-reviewed design carbon composite fibrous architecture]
How can branched building structures be optimized via analyzing plant branchings? Functional morphology, biomechanics and Finite Element (FE) simulation of Araliaceae ramifications. In Kesel, and Zehren (Eds.), Bionik: Patente aus der Natur. Tagungsbeiträge 8. Bionik-Kongress Bremen, 40-48, Bremen, Germany, 2017. [PUMA: 2017 Araliaceae analyzing biomechanics biomimetic branched branching building bunk element fe finite from:petraheim functional itke jonas knippers masselter morphology optimized plant ramfication seitz simulation speck structure]
How can branched building structures be optimized via analyzing plant branchings? Functional morphology, biomechanics and Finite Element (FE) simulation of Araliaceae ramifications. In Kesel, and Zehren (Eds.), Bionik: Patente aus der Natur. Tagungsbeiträge 8. Bionik-Kongress Bremen, 40-48, Bremen, Germany, 2017. [PUMA: 2017 Araliaceae analyzing biomechanics biomimetic branched branching building bunk element fe finite functional itke knippers masselter morphology optimized plant ramfication seitzjonas simulation speck structure]
Fibrous structures: an integrative approach to design computation, simulation and fabrication for lightweight, glass and carbon fibre composite structures in architecture based on biomimetic design principles. Computer-Aided Design, (52):27-39, July 2014. [PUMA: 2014 approach architecture carbon composite computation design fabrication fibre fibrous glass integrative itke knippers lightweight magna menges peer-reviewed reichert robotic schwinn simulation structure waimer]
Integrated Design Methods for the Simulation of Fibre-based Structures. In Cristoph Gengnagel, Axel Kilian, J. Nembrini, and F Scheurer (Eds.), Rethinking Prototyping, Proceedings of 4th Design Modelling Symposium Berlin 2013, 1 -14, Universität der Künste, Berlin, 2013. [PUMA: 2013 architecture design engineering fibre fibre-based itke knippers magna menges methods reichert schwinn simulation structure waimer]