CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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id acadia17_92
authors Anzalone, Phillip; Bayard, Stephanie; Steenblik, Ralph S.
year 2017
title Rapidly Deployed and Assembled Tensegrity System: An Augmented Design Approach
source ACADIA 2017: DISCIPLINES & DISRUPTION [Proceedings of the 37th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-96506-1] Cambridge, MA 2-4 November, 2017), pp. 92-101
summary The Rapidly Deployable and Assembled Tensegrity (RDAT) project enables the efficient automated design and deployment of differential-geometry tensegrity structures through computation-driven design-to-installation workflow. RDAT employs the integration of parametric and solid-modeling methods with production by streamlining computer numerically controlled manufacturing through novel detailing and production techniques to develop an efficient manufacturing and assembly system. The RDAT project emerges from the Authors' research in academia and professional practice focusing on computationally produced full-scale performative building systems and their innovative uses in the building and construction industry.
keywords design methods; information processing; AI; machine learning; form finding; VR; AR; mixed reality
series ACADIA
email panzalone@icloud.com
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100%; open Anzalone, Phillip, and Stephanie Bayard (2016) Find in CUMINCAD Intelligent Tensegrity System , Facade Tectonics World Congress Proceedings, vol. 2, edited by Douglas Noble, Karen Kensek, and Shreya Das, 46976. Los Angeles: Facade Tectonics Institute

100%; open Anzalone, Phillip (2013) Find in CUMINCAD RDAT: Rapidly Deployable and Assembled Tensegrity System , Presentation at TxA Emerging Design and Technology Conference, 74th Texas Society of Architects Annual Convention and Design Expo. Houston: TxA

100%; open Brynjolfsson, Erik, and Andrew McAfee (2016) Find in CUMINCAD The Second Machine Age: Work, Progress, and Prosperity in a Time of Brilliant Technologies , New York: W. W. Norton & Company

100%; open Bugartz, H.J. (2007) Find in CUMINCAD Analytic and Numeric Investigations of Form-Finding Methods for Tensegrity Structures , Ph.D. diss., Max Planck Institute for Metals Research

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100%; open Engelbart, Douglas C. (1962) Find in CUMINCAD Augmenting Human Intellect: A Conceptual Framework , Report for Air Force Office of Scientific Research, AFOSR-3223. Reproduced at Doug Engelbart Institute website, http://www.dougengelbart.org/pubs/augment-3906.html

100%; open Fuller, R. Buckminster (1975) Find in CUMINCAD Synergetics: Explorations in the Geometry of Thinking , London: Collier-Macmillan

100%; open Oppenheim, Irving J., and William O. Williams (1997) Find in CUMINCAD Mechanics of Tensegrity Prisms , Proceedings of the 14th International Symposium on Automation and Robotics in Construction, 47379. Pittsburgh, PA: ISARC

100%; open Pinaud, Jean-Paul, Milenko Masic, and Robert E. Skelton (2003) Find in CUMINCAD Path Planning for the Deployment of Tensegrity Structures , Proceedings of SPIE: Smart Structures and Materials 5049: 43647

100%; open Schumacher, Patrik (2016) Find in CUMINCAD Design Parameters to Parametric Design , The Routledge Companion for Architecture Design and Practice: Established and Emerging Trends, edited by Mitra Kanaani and Dak Kopec. New York: Routledge

100%; open Zhang, J. Y., M. Oshaki, and Y. Kanno (2006) Find in CUMINCAD A Direct Approach to Design of Geometry and Forces of Tensegrity Systems , International Journal of Solids and Structures 43 (7-8): 226078

100%; open Zhang, Marvin, Xinyang Geng, Jonathan Bruce, Ken Caluwaerts, Massimo Vespignani, Vytas SunSpiral, Pieter Abbeel, Sergey Levine (2017) Find in CUMINCAD Deep Reinforcement Learning for Tensegrity Robot Locomotion , arXiv:1609.09049v3 [cs.RO] 8 Mar 2017

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