livMatS biomimetic shell: Structural advancements of segmented timber shells towards permanent building constructions. Structures, (79):109524, Elsevier, September 2025. [PUMA: Robotic Optimisation shells göbel Structural knippers engineering Plate structure system itke fabrication menges aicher Lightweight Modular schlopschnat Form-finding design Integrative 2025 Segmented timber Computational bechert]
Computational design and robotic fabrication for high environmental quality timber constructions: the livMatS Biomimetic Shell case study. DaRUS, 2024. [PUMA: environmental göbel 2024 knippers quality wortmann the itke Biomimetic fabrication constructions sawodny menges case study leistner wagner opgenorth robotic Shell schlopschnat skoury bairi stark lauer design livMatS timber wood Computational treml bechert] URL
Reciprocal Lightweight Structures with Natural Fiber Biocomposite Profiles through Computational Design and Case Studies Validation. Proceedings of the IASS 2024 Symposium, August 2024. [PUMA: biomat dahy natural biocomposite iass 2024 profiles lightweight pultrusion reiner design itke spyridonos structures pultruded fibrer computational fibre]
Bio-Modules: Mycelium-Based Composites Forming a Modular Interlocking System through a Computational Design towards Sustainable Architecture. Designs, (7)1:20, MDPI, 2023. [PUMA: modular biomat mycelium dahy sustainable 2023 design itke spyridonos composite abdelhady computational architecture]
livMatS Pavilion: Design and Development of a Novel Building System Based on Natural Fibres Coreless-wound Structural Components for Applicartons in Architecture. Journal of the International Association for Shell and Spatial Structures, (Vol. 65)2:133 - 145, June 2024. [PUMA: modular dörstelmann prefabrication dambrosio natural knippers pavilion filament itke winding fabrication freiburg menges fibre sustainable coreless gil zechmeister robotic stark design composites structures construction rinderspacher computational]
Concurrent, computational design and modelling of structural, coreless-wound building components. Automation in Construction, (151):104889, July 2023. [PUMA: FEA Finite Robotic workflow Digital-physical 2023 knippers analysis Carbon modelling filament Feedback-based Co-design itke from:petraheim winding fabrication (FEA) menges fibre gil zechmeister Interdisciplinary design element Coreless computational Computational] URL
Integrative structural design and engineering methods for segmented timber shells : BUGA Wood Pavilion. Structures, (34)December:4814-4833, Elsevier, 2021. [PUMA: modular finger sonntag segmented knippers engineering shell 2021 structure itke from:petraheim fabrication form-finding buga methods aldinger joints heilbronn plate robotic lightweight integrative design optimization timber computational bechert]
Computational co-design framework for coreless wound fibre–polymer composite structures. Journal of Computational Design and Engineering, (9)2:310–329, April 2022. [PUMA: 2022 Balangé architecture bischoff collaborative composite computational coreless coreless-wound digital engineering evaluation fibre-polymer filament framework from:petraheim förster gienger gil gresser guo hügle itke kannenberg knippers menges middendorf minderman model object schwieger structural structures tarin winding workflow zechmeister]
Design Methods for Variable Density, Multi-Directional Composite Timber Slab Systems for Multi-Storey. In V Stojakovic, and B Tepavcevic (Eds.), Proceedings of the 39th eCAADe Conference, (1):303--312, Cumincad, Novi Sad, 2021. [PUMA: knippers 2021 density amtsberg modelling krtschil itke from:petraheim menges variable multi-storey methods wagner slab agent-based skoury systems design composite multi-directional timber computational orozco architecture bechert] URL
A Generic Particle Model with Topologic Modeling Capabilities for the Computational Form-Finding of Elastic Structures. Computer-Aided Design, (145)ELSEVIER SCI LTD, April 2022. [PUMA: Real-time modeling Topologic knippers 2022 engineering generic Elastic itke from:petraheim physics structures particle Exploratory model computational form-finding suzuki]
Integrative computational design and construction: Rethinking architecture digitally. Civil Engineering Design, (3):123 -135, Ernst & Sohn, 2021. [PUMA: co-design weiskopf architecuture building knippers digital integrative interdisciplinary research technologies design culture itke from:petraheim construction sawodny computational menges kropp]
Urbach Tower: Integrative structural design of a lightweight structure made of self-shaped curved cross-laminated timber. Structures, (33):3667--3681, ELSEVIER SCI LTD, October 2021. [PUMA: surface-active knippers engineering shell 2021 digital structure itke from:petraheim fabrication menges cross-laminated curved folded Timber aldinger crossing-screw CLT lightweight integrative self-shaping design connection urbach wood computational architecture bechert tower]
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]
A comparative overview of generative approaches for computational form-finding of bending-active tensile structures. Proceedings of the IASS Annual Symposium 2017, Hamburg, Germany, 25-28 Sept. 2017. [PUMA: overview approach bending-active knippers erazo structure 2017 itke from:petraheim comarative tensile computational form-finding suzuki architecture slabbinck generative]
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]
Integrative Computational Design Methodologies for Modular Architectural Fiber Composite Morphologies. ACADIA Conference, 219 – 228, Los Angeles, USA, October 2014. [PUMA: modular dörstelmann parascho methodologies fiber method knippers morphologies integrative design itke from:petraheim prado 2014 composite architectural computational menges architecture]
Modular Fibrous Morphologies: Computational Design, Simulation and Fabrication of Differentiated Fibre Composite Building Components. In Philippe Block, Jan Knippers, Niloy J. Mitra, and Wenping Wang (Eds.), Advances in Architectural Geometry 2014, 29 – 46, Springer International Publishing, Cham, Heidelberg, New York, 2015. [PUMA: 2015 architecture composite computational design dörstelmann fabrication fibre fibrous from:petraheim itke knippers modular morphologies parascho prado simulation]
Material Behaviour: Embedding Physical Properties in Computational Design Processes. In London Wiley Academy (Eds.), Architectural Design, (Vol. 82)No. 2:44 – 51, 2012. [PUMA: 2012 architecture behaviour computational design embedding fleischmann from:petraheim itke knippers lienhard material menges physical process properties robotic schleicher]
ElasticSpace: A computational framework for interactive form-finding of textile hybrid structures through evolving topology networks. International Journal of Parallel, Emergent and Distributed Systems, Vol. 32, 11/2017, (Vol 32)1November 2017. [PUMA: 2017 computational elastic evolving form-finding framework from:petraheim hybrid interactive itke knippers network peer-reviewed space structure suzuki textile topology]