Publications

Oliver Bucklin. MONO-MATERIAL WOOD WALL. Research reports / Institute for Computational Design and Construction, 17Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2024. [PUMA: timber research_reports]

Luis Orozco. CO-DESIGN AND AGENT-BASED METHODS FOR MULTI-STOREY WOOD BUILDING SYSTEMS. Research reports / Institute for Computational Design and Construction, 14Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2024. [PUMA: timber research_reports]

Serban Bodea. Upscaled, robotic coreless filament winding methods for lightweight building elements for architecture. Universität Stuttgart, 2023. [PUMA: research_reports fibre] URL

Julia Weißert, Roberta Di Bari, Rafael Horn, Guillermo Hernandez, Alessandro Montalti, Benedikt Strahm, Olga Miller, Felix Amtsberg, Tobias Schwinn, Tim Stark, Lasath Siriwardena, Hans Jakob Wagner, Simon Treml, Philip Leistner, and Achim Menges. IntCDC Research Integration in Building Demonstrator - Ecological Quality. DaRUS, 2024. [PUMA: rp18 data] URL

Maria Yablonina. Designing [with] machines : task- and site-specific robotic teams for architectural in situ making. Research reports / Institute for Computational Design and Construction, 8Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2023. [PUMA: research_reports]

Tiffany Cheng. Material programming for 4D-printing : architected mesostructures for bioinspired self-shaping. In Achim (Prof.) Menges (Eds.), Stuttgart : Institute for Computational Design and Construction, University of Stuttgart, 2024. [PUMA: matpro] URL

Christoph Zechmeister. Computational fiber architecture : co-design of large-scale, load-adapted fiber composite building components for robotic pre-fabrication. Research reports / Institute for Computational Design and Construction, 16Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2023. [PUMA: fibre]

Yasaman Tahouni. Programming shape-change : integrative computational design of materials, mesostructures, and motion mechanisms for 4D-printing. In Achim (Prof.) Menges (Eds.), Stuttgart : Institute for Computational Design and Construction, University of Stuttgart, 2024. [PUMA: matpro research_reports] URL

Abel Groenewolt. Timber plate shells as a roof construction system : design and fabrication of trivalent polyhedral roof structures for applications in the existing building stock. Research reports / Institute for Computational Design and Construction, 10Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2023. [PUMA: research_reports]

Luis Orozco, Anna Krtschil, Hans Jakob Wagner, Jan Knippers, and Achim Menges. Floor Plate Segmentation Data. 2023.

Tobias Schwinn, Lasath Siriwardena, and Achim Menges. Integrative Agent-Based Architectural Design Modelling for Segmented Timber Shells. Advances in Architectural Geometry 2023, 177-192, De Gruyter, September 2023. [PUMA: myown first peer abm] URL

Oliver David Krieg. Architectural potentials of robotic manufacturing in timber construction : strategies for interdisciplinary innovation in manufacturing and design. Universität Stuttgart, 2022. [PUMA: research_reports] URL

Tobias Schwinn, Abel Groenewolt, Long Nguyen, Lasath Siriwardena, Martín Alvarez, Alexander Reiner, Max Benjamin Zorn, and Achim Menges. ABxM.PlateStructures: Agent-based Architectural Design of Plate Structures. DaRUS, 2023. [PUMA: myown dataset abm] URL

David Correa. 4D printed hygroscopic programmable material architectures. Research reports / Institute for Computational Design and Construction, 9Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, 2022. [PUMA: matpro R014 research_reports]

David Stieler, Tobias Schwinn, Samuel Leder, Mathias Maierhofer, Fabian Kannenberg, and Achim Menges. Agent-based modeling and simulation in architecture. Automation in Construction, (141):104426, September 2022. [PUMA: myown peer abm] URL

Long Nguyen, Tobias Schwinn, Abel Groenewolt, Mathias Maierhofer, Max Benjamin Zorn, David Stieler, Lasath Siriwardena, Fabian Kannenberg, and Achim Menges. ABxM.Core: The Core Libraries of the ABxM Framework. DaRUS, 2022. [PUMA: myown dataset abm] URL

Achim Menges. Performative Wood: Integral Computational Design for Timber Constructions. reForm( ) - Building a Better Tomorrow [Proceedings of the 29th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)], 22–25, 2009. [PUMA: peer timber]

Oliver David Krieg, Tobias Schwinn, Achim Menges, Jian-Min Li, Jan Knippers, Annette Schmitt, and Volker Schwieger. Biomimetic lightweight timber plate shells : computational integration of robotic fabrication, architectural geometry and structural design. Advances in architectural geometry 2014, 109-125, Springer, Cham, 2015. [PUMA: peer timber]

Ehsan Baharlou, and Achim Menges. Toward a behavioral design system : an agent-based approach for polygonal surfaces structures. Computational ecologies : design in the anthropocene, proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA), University of Cincinnati, Cincinnati OH, 161-172, ACADIA, 2015. [PUMA: peer abm]

Tobias Schwinn. A systematic approach for developing agent-based architectural design models of segmented shells : towards autonomously learned goal-oriented agent behaviors. Institute for Computational Design and Construction, University of Stuttgart, Stuttgart, August 2021. [PUMA: myown first 2021 research_reports ts] URL