As part of AAG2020, we participated in the very well conducted workshop “Structural Form-Finding through Machine Learning“, led by...
Solar Form Finding
Hybrid structure form-finding
6431737 formfinding items 1 default asc openlib 1 1 1 1 title https://echoes.paris/wp-content/plugins/zotpress/
POULSEN, EMIL. 2015. “Structural Design and Analysis of Elastically Bent Gridshells.”
D'Amico, Bernardino, Abdy Kermani, and Hexin Zhang. 2014. "A Form Finding Method for Post Formed Timber Grid Shell Structures." https://doi.org/10.13140/2.1.3949.8888.
Naicu, Dragoș, Richard Harris, and Chris Williams. 2014. “Timber Gridshells:Design Methods and Their Application to a Temporary Pavilion,” 10.
Tareq Alzawawi, Ali Dowd, Antoinette Escobar, Ben Gallegos, and Christina Kukurba. 2015. “Gridshell Research.”
Liuti, Alessandro, and Alberto Pugnale. n.d. “Erection of Post-Formed Gridshells by Means of Inflatable Membrane Technology,” 10.
Labonnote, Nathalie, John Haddal Mork, Steinar Hillersøy Dyvik, Anders Rønnquist, and Bendik Manum. n.d. “EXPERIMENTAL AND NUMERICAL STUDY OF THE STRUCTURAL PERFORMANCE OF A TIMBER GRIDSHELL,” 9.
Mesnil, Romain. 2013. “Stability of Elastic Grid Shells.”
Harris, Richard, and Jonathan Roynon. n.d. “The Savill Garden Gridshell Design and Construction,” 7.
Bouhaya, Lina. 2010. “Optimisation structurelle des gridshells.”
D'Acunto, Pierluigi, Jean-Philippe Jasienski, Patrick Ole Ohlbrock, Corentin Fivet, Joseph Schwartz, and Denis Zastavni. 2019. "Vector-based 3D graphic statics: A framework for the design of spatial structures based on the relation between form and forces." International Journal of Solids and Structures 167: 58–70. https://doi.org/10.1016/j.ijsolstr.2019.02.008.
Ohlbrock, Patrick Ole, and Pierluigi D’Acunto. 2020. “A Computer-Aided Approach to Equilibrium Design Based on Graphic Statics and Combinatorial Variations✩,” 19.
Tsigkari, Martha, Jens Olsson, Henrik Malm, Stamatios Psarras, and Francis Aish. 2017. “Shaping the Envelope of New Mexico City Airport,” 10.
Hensel, Michael, and Achim Menges, eds. 2008. Versatility and Vicissitude: Performance in Morpho-Ecological Design. Architectural Design Profile 192. Chichester: Wiley.
M.H. Toussaint. 2007. “A Design Tool for Timber Gridshells.”
Kuijvenhoven, Maarten. n.d. “A Design Method for Timber Grid Shells.”
Charest, Philippe, Paul Shepherd, Richard Harris, André Potvin, Claude Demers, and Sylvain Ménard. 2019. "Patchwork Gridshells: Using Modularity to Facilitate Prefabrication and Simplify Construction." Journal of the International Association for Shell and Spatial Structures 60 (3): 176–88. https://doi.org/10.20898/j.iass.2019.201.025.
Pone, S, S Colabella, B Parenti, D Lancia, A Fiore, B D'Amico, F Portioli', R Landolfo', M D'Aniello, and C Ceraldi. 2013. "Construction and form-finding of a post-formed timber grid-shell." Edited by Paulo Cruz. Structures and Architecture, 245–52. https://doi.org/10.1201/b15267-32.
“PARTICLE-SPRING METHOD FOR FORM FINDING GRID SHELL STRUCTURES CONSISTING OF FLEXIBLE MEMBERS.” 2011.
Goldbach, Ann-Kathrin, Anna M. Bauer, Roland Wüchner, and Kai-Uwe Bletzinger. 2020. "CAD-Integrated Parametric Lightweight Design With Isogeometric B-Rep Analysis." Frontiers in Built Environment 6 (April): 44. https://doi.org/10.3389/fbuil.2020.00044.
Paoli, Celine. n.d. “Past and Future of Grid Shell Structures,” 63.
Peloux, Lionel Du, Olivier Baverel, Jean-François Caron, and Frédéric Tayeb. n.d. “From Shape to Shell: A Design Tool to Materialize Freeform Shapes Using Gridshell Structures,” 11.
Liuti, Alessandro. 2017. “The Airshell Prototype: A Timber Gridshell Erected through a Pneumatic Formwork,” 11.
Dyvik, Steinar H, John H Mork, Magnus Nilsen, and Marcin Luczkowski. 2016. “Modular Kinematic Timber Gridshell; a Simple Scheme for Constructing Advanced Shapes,” 11.
Peloux, Lionel du, Frédéric Tayeb, Olivier Baverel, and Jean-François Caron. 2016. "Construction of a Large Composite Gridshell Structure: A Lightweight Structure Made with Pultruded Glass Fibre Reinforced Polymer Tubes." Structural Engineering International 26 (2): 160–67. https://doi.org/10.2749/101686616X14555428758885.
Collins, Matt, and Tom Cosgrove. 2016. “Considerations for the Design of Bending Active Timber Gridshells,” 7.
Li, Jian-Min, Universität Stuttgart, and Institut für Tragkonstruktionen und Konstruktives Entwerfen. 2017. “Timber Shell Structures Form-finding and structural analysis of actively bent grid shells.”
Sousa, Paulo da, ed. 2016. "Specialised algorithms for different project stages in a postformed timber gridshell design." https://doi.org/10.1201/b20891.
D’Amico, Bernardino. 2015. “Timber Grid-Shell Structures: Form-Finding, Analysis and Optimisation.”
TANG, Gabriel. 2017. “The Novel Use of Deployable and Actively-Bent Gridshells as Reusable, Reconfigurable and Intuitive Concrete Shell Formwork.”
Dragos-Iulian Naicu. 2012. “Geometry and Performance of Timber Gridshells.”
Knippers, Jan. n.d. “Form-Finding of Grid Shells with Continuous Elastic Rods,” 7.
Vaulot, Laelia Kim-Lan. 2016. “Form-Finding of Elastic Gridshells.”
Bertin, Trevor B. 2013. “Evaluating the Use of Particle-Spring Systems in the Conceptual Design of Grid Shell Structures.”
D'Amico, B., A. Kermani, and H. Zhang. 2014. "Form finding and structural analysis of actively bent timber grid shells." Engineering Structures, 2014.
“Parametric Form Finding in Contemporary Architecture.” n.d.
Wendland, David. n.d. “MODEL-BASED FORMFINDING PROCESSES: FREE FORMS IN STRUCTURAL AND ARCHITECTURAL DESIGN,” 12.
Ingold, Lukas, and Mario Rinke. n.d. “SERGIO MUSMECI’S SEARCH FOR NEW FORMS OF CONCRETE STRUCTURES,” 8.
Harding, John, and Paul Shepherd. n.d. “Structural Form Finding Using Zero-Length Springs with Dynamic Mass,” 8.
Bletzinger, Kai-Uwe. n.d. “FORMFINDING AND OPTIMIZATION,” 28.