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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	Eversmann, P (2017) Digital Fabrication in Education, Strategies and Concepts for Large-Scale Projects , 35th eCAADe Conference Proceedings, pp. 333-342

	Eversmann, P (2017) Digital Fabrication in Education. Strategies and Concepts for Large-Scale Projects , Proceedings of eCAADe 2017, Rome, pp. 333-342

	Eversmann, p (2019) Concepts for Timber Joints in Robotic Building Processes Introduction: Computational Development of Timber Structures and Joining Techniques , Hudert, M and Pfeiffer, S (eds), Rethinking Wood Future Dimensions of Timber Assembly, BirkhÃ¤user

	Eversmann, P., Gramazio, F. and Kohler, M. (2017) Robotic prefabrication of timber structures: towards automated large-scale spatial assembly , Construction Robotics. 1. 10.1007/s41693-017-0006-2. Available at: https://www.researchgate.net/publication/319110210_Robotic_prefabrication_of_timber_structures_towards_automated_large-scale_spatial_assembly (Accessed: 15 February 2022)

	Eversmann, P., Gramazio, F., & Kohler, M. (2017) Small 3D Printers / Large Scale Artifacts-Computation for Automated Spatial Lattice Design-to-Fabrication with Low Cost Linear Elements and 3D Printed Nodes , Construction Robotics, 1(1-4), 49-60

	Eversmann, P., Gramazio, F., & Kohler, M. (2017) Robotic prefabrication of timber structures: towards automated large-scale spatial assembly , Construction Robotics,1(1–4), 49–60

	Eversmann, P. (2017) Digital Fabrication in Education: Strategies and Concepts for Large-Scale Projects , Fioravanti, A., Cursi, S., Elahmar, S., Gargaro, S., Loffreda, G. Novembri, G. & Trento, A. (Eds.), ShoCK! – Sharing of Computable Knowledge - Proceedings of the 35th International Conference on Education and Research Computer Aided Architectural Design Europe. Roma, Itália: Sapienza University of Rome

	Eversmann, P. (2018) Robotic Fabrication Techniques for Material of Unknown Geometry , De Rycke, K., et al. Humanizing Digital Reality. Springer, Singapore. https://doi.org/10.1007/978-981-10-6611-5_27

	Evins R, Joyce SC, Pointer P, et al. (2012) Multi-objective design optimisation: getting more for less , Proc Instituition Civ Eng; 165: 5–10

	Evins, R, Joyce, SC, Pointer, P, Sharma, S, Vaidyanathan, R and Williams, C (2012) Multi-objective design optimisation: getting more for less , Civil Eng, pp. 5-10

	Evins, R, Joyce, SC, Pointer, P, Sharma, S, Valdyanathan, R and Williams, C (2012) Multi-objective design optimisation: getting more for less , Civil Engineering Special Issue, 165, pp. 5-10

	Evins, R (2013) A review of computational optimization methods applied to sustainable building design , Renewable Sustainable Energy Review, 22, p. 230-245

	Evitts, P. (2000) A UML Pattern Language. Indianapolis , MTP. Gamma, E., R. Helm, R. Johnson, and J. Vlissides. 1995. Design Patterns. Reading MA:Addison-Wesley Professional

	Ewell, P. (2001) Accreditation and Student Learning Outcomes: A Proposed Point of Departure , CHEA Occasional Paper

	F Gramazio, MK and Willmann, J (2014) The Robot , Kohler, M and Gramazio, JWF (eds), The Robotic Touch: How Robots Change Architecture, Park Books AG, p. F. Gramazio, M. Kohler and J. Willmann

	F. Craveiro, H. Almeida, H. Bártolo, P. J. Bártolo, and J. P. Duarte (2017) Topology and Material Optimization of Architectural Components , Challenges for Technology Innovation: An Agenda for the Future. Boca Raton: CRC Press

	F. Craveiro, H. Almeida, H. Bártolo, P.J. Bártolo, and J.P. Duarte (2017) Topology and material optimization of architectural compo- nents , Challenges for Technology Innovation: An Agenda for theFuture. Lisbon, Portugal: CRC Press/Balkema 71–76

	F. Heisel, J. Lee, K. Schlesier, M. Rippmann, N. Saeidi, A. Javadian, A. Reza Nugroho, T. Van Mele, P. Block, and D. E. Hebel (2017) MYCOTREE Design, Cultivation and Application of Load-Bearing Mycelium Components: The MycoTree at the 2017 Seoul Biennale of Architecture and Urbanism , International Journal of Sustainable EnergyDevelopment 6 (1): 296–303

	F. Oghazian, P. Farrokhsiar, and F. Davis (2021) A simulation process for implementation of knitted textiles in developing architectural tension structures , Inspiring the Next Generation; Proceedings of theInternational Conference on Spatial Structures 2020/21

	Faber, P. and Fisher, B. (2002) How can we exploit typical architectural structures to improve model recovery? , 3D Data Processing Visualization and Transmission. Padova, Italy

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