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Lightweight Material Prototypes Using Dense Bundled Systems To Emulate An Ambient Environment, Chris Knapp, Jonathan Nelson, Andrew Kudless, Sascha Bohnenberger
Lightweight Material Prototypes Using Dense Bundled Systems To Emulate An Ambient Environment, Chris Knapp, Jonathan Nelson, Andrew Kudless, Sascha Bohnenberger
Jonathan J Nelson
This paper describes and reflects upon a computational design and digital fabrication research project that was developed and implemented over 2014-2015, with subsequent development continuing for applications at present. The aim of the research was to develop methods of modelling, analysis, and fabrication that facilitate integrative approaches to architectural design and construction. In this context, the development of material prototypes, digital simulations, and parametric frameworks were pursued in parallel in order to inform and reform successive iterations throughout the process, leading to a refined workflow for engineering, production, and speculation upon future directions of the work.
Lightweight Material Prototypes Using Dense Bundled Systems To Emulate An Ambient Environment, Chris Knapp, Jonathan Nelson, Andrew Kudless, Sascha Bohnenberger
Lightweight Material Prototypes Using Dense Bundled Systems To Emulate An Ambient Environment, Chris Knapp, Jonathan Nelson, Andrew Kudless, Sascha Bohnenberger
Chris Knapp
This paper describes and reflects upon a computational design and digital fabrication research project that was developed and implemented over 2014-2015, with subsequent development continuing for applications at present. The aim of the research was to develop methods of modelling, analysis, and fabrication that facilitate integrative approaches to architectural design and construction. In this context, the development of material prototypes, digital simulations, and parametric frameworks were pursued in parallel in order to inform and reform successive iterations throughout the process, leading to a refined workflow for engineering, production, and speculation upon future directions of the work.
Resolution Of Complex Composite Envelopes Through Generative Computation And Digital Fabrication, Chris Knapp, Jonathan Nelson
Resolution Of Complex Composite Envelopes Through Generative Computation And Digital Fabrication, Chris Knapp, Jonathan Nelson
Chris Knapp
This paper documents and critically reflects upon the design, development, fabrication, and implementation of an experimental pavilion project developed during 2013-2014 for a site in Sydney, Australia. The core investigation embodied by this work is the refinement of techniques to computationally design and fabricate integrated structure and skin envelopes through a file-to-fabrication process, culminating in the production of doubly curved project geometry via panelized construction. The principal activity of the research is aimed at refining methods for software-based exploration of formal complexities and the subsequent need to control variability and efficiency in fabrication output, using Grasshopper for Rhino to develop …