Cumincad : CUMINCAD References : Search Results

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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	Leach, N and Snooks, R (eds) (2017) Swarm Intelligence: Architectures of Multi-Agent Systems , Tongji University Press, Shanghai

	Leach, N. and Snooks, R. (2017) Swarm Intelligence Architectures of Multi-agent Systems , Tongji University Press

	Liu, D, Christe, D, Shakibajahromi, B, Knittel, C, Castaneda, N, Breen, D, Dion, G and Kontsos, A (2017) On the Role of Material Architecture in the Mechanical Behavior of Knitted Textiles , International Journal of Solids and Structures, 109, pp. 101-111

	Lundberg, S. M., Erion, G., Chen, H., DeGrave, A., Prutkin, J. M., Nair, B., Katz, R., Himmelfarb, J., Bansal, N. & Lee, S.-I. (2019) Explainable AI for Trees: From Local Explanations to Global Understanding , ArXiv:1905.04610 [Cs, Stat]. Retrieved January 10, 2022, from http://arxiv.org/abs/1905.04610Menges, A., & Reichert, S. (2012). Material Capacity: Embedded Responsiveness. Architectural Design, 82(2), 52–59. https://doi.org/10.1002/ad.1379Olsson, A., & Oscarsson, J. (2017). Strength grading on the basis of high resolution laser scanning and dynamic excitation: A full scale investigation of performance. European Journal of Wood and Wood Products, 75(1), 17–31. https://doi.org/10.1007/s00107-016-1102-6Pedregosa, F., Varoquaux, G., Gramfort, A., Michel, V., Thirion, B., Grisel, O., Blondel, M., Prettenhofer, P., Weiss, R., Dubourg, V., Vanderplas, J., Passos, A., Cournapeau, D., Brucher, M., Perrot, M., & Duchesnay, É. (2011). Scikit-learn: Machine Learning in Python. Journal of Machine Learning Research, 12(85), 2825–2830

	Ma, G., Li, Z., & Wang, L. (2018) Printable properties of cementitious material containing copper tailings for extrusion based 3D printing , Construction and Building Materials, 162, 613-627. https://doi.org/10.1016/j.conbuildmat.2017.12.051

	Meex, E, Knapen, E and Verbeeck, G (2017) Challenges for the integration of sustainable material use into dwelling design and construction , Paper accepted for PLEA 2017, Edinburgh, United Kingdom

	Melenbrink, Nathan, and Justin Werfel (2017) Local Force Cues For Strength And Stability In A Distributed Robotic Construction System , Forthcoming in Journal of Swarm Intelligence: Special Issue on Self-Organised Construction

	Melenbrink, Nathan, and Justin Werfel (2017) Local Force Cues For Strength And Stability In A Distributed Robotic Construction System , Forthcoming in Journal of Swarm Intelligence: Special Issue on Self-Organised Construction

	Menges, AM (2017) Material Computation: Toward Self-X Material System in Architecture , Tibbits, ST (eds), Active Matter, MIT Press, Cambridge, Massachusetts, pp. 261-270

	Nagai, T., Shirai, H. and Matsuoka, T. (2017) Design And Construction Of Temporary Pavilion Using Reed As Structural Material. , AIJ Journal of Technology and Design, 23, pp. 875-880

	Nathan Melenbrink and Justin Werfel (2019) A Swarm Robot Ecosystem For Autonomous Construction, 2017 , Robotic Building: Architecture in the Age of Automation, edited by Gilles Retsin, Manuel Jimenez, Mollie Claypool, and Vicente Soler, 88-90. München: DETAIL. https://doi. org/10.11129/9783955534257-018

	Nicholas P, Zwierzycki M, Norgaard Clausen E, et al. (2017) Adaptive robotic fabrication for conditions of material inconsistency increasing the geometric accuracy of incrementally formed metal panels , Menges A, Sheil B, Glynn R, et al. (eds) Fabricate: rethinking design and construction - proceedings of fabricate 2017. London: UCL Press, p. 114–121

	Nicholas P, Zwierzycki M, Norgaard EC, et al. (2017) Adaptive robotic fabrication for conditions of material inconsist-ency: increasing the geometric accuracy of incrementally formed metal panels , Fabricate 2017. London: UCL Press, pp. 114–121

	Nicholas P, Zwierzycki M, Norgaard EC, et al. (2017) Adaptive robotic fabrication for conditions of material inconsist-ency: increasing the geometric accuracy of incrementally formed metal panels , Menges A, Sheil B, Glynn R, et al. (eds.) Fabricate 2017. London: UCL Press, pp. 114–121

	Nicholas P., Zwierzycki M., N?rgaard E. et al. (2017) Adaptive robotic fabrication for conditions of material inconsistency: increasing the geometric accuracy of incrementally formed metal panels , Proceedings of the Fabricate confer- ence, Stuttgart, 6–8 April 2017, pp. 114–121. London: UCL Press

	Nicholas, P, Zwierzycki, M, N?rgaard, D, Ramsgaard Thomsen, M and Hutchinson, C (2017) Adaptive Robotic Fabrication For Conditions Of Material Inconsistency: Increasing The Geometric Accuracy Of Incrementally Formed Metal Panels , Fabricate 2017, pp. 114-121

	Nicholas, P, Zwierzycki, M, Norgaard, E, Leinweber, S, Stasiuk, D, Ramsgaard Thomsen, M and Hutchinson, C (2017) Adaptive robotic fabrication for conditions of material inconsistency: Increasing the geometric accuracy of incrementally formed metal panels , Fabricate 2017

	Nicholas, P, Zwierzycki, M, NÃ¸rgaard Clausen, E, Hutchinson, C and Thomsen, M (2017) Adaptive Robotic Fabrication For Conditions Of Material Inconsistency Increasing The Geometric Accuracy Of Incrementally Formed Metal Panels , Fabricate 2017, pp. 114-121

	Nicholas, P, Zwierzycki, M, NÃ¸rgaard, E.C, Leinweber, S, Stasiuk, D, Ramsgaard Thomsen, M and Hutchinson, C (2017) Adaptive Robotic Fabrication for Conditions of Material Inconsistency: Increasing the Geometric Accuracy of Incrementally Formed Metal Panels , Fabricate 2017, pp. 114-121

	Nicholas, Paul, Mateusz Zwierzycki, Esben Clausen N?rgaard, David Stasiuk, Christopher Hutchinson, and Mette Thomsen (2017) Adaptive Robotic Fabrication on for Conditions of Material Inconsistency: Increasing the Geometric Accuracy of Incrementally Formed Metal Panels , Fabricate 2017: Rethinking Design and Construction, edited by Achim Menges, Bob Sheil, Ruairi Glynn, and Marilena Skavara, 114–21. London: UCL Press

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