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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	Evans, L, Lohse, N and Summers, M (2013) A Fuzzy-Decision-Tree Approach for Manufacturing Technology Selection Exploiting Experience-Based Information , Expert Systems with Applications, 40(16), pp. 6412-6426

	Evans, M (2011) Empathizing with the Future: Creating next-next generation products and services , The Design Journal, 14(2), pp. 231-251

	Evans, M. (1997) The application of rapid prototyping technologies for industrial design and ergonomic evaluation , Robertson, SA (ed.). Contemporary Ergonomics 1997. Proceedings of the Annual Conference of the Ergonomics Society (April 1997). Taylor & Francis: London, 370-375

	Evans, M., & Sommerville, S. (2007) Design Led Futures: Futures Thinking in the Design Curriculum , 2007 International Conference on Design Education. Connected 2007, Sydney, Australia

	Evans, M. (1980) Housing, Climate and Comfort , The Architectural Press, London

	Evans, M.A. (1992) Model or prototype which, when and why? , Smith, (.5. (Ed), IDATER 92 International Conference on Design and Technology Education Research and Curriculum Development, Loughborough University of Technology, Loughborough, pp. 42-46

	Evans, T.G. (1968) A Program for the Solution of A Class of Geometric-Analogy Intelligence-Test Questions , In Minsky. M. (ed.) Semantic Information Processing. Cambridge. Ma: MIT Press pp 271-353

	Evci, M., & Ciravoglu, A. (2015) An Evaluation of the Role of Environmental, Social and Economic Factors in Architects Choice of Building Materials , Megaron / Yildiz Technical University , Faculty of Architecture E-Journal. Pg.139-147. DOI: 1.555/MEGARON.215.2886

	Everett, M.G. and S.P. Borgatti (1999) The centrality of groups and classes , Journal of Mathematical Sociology. 23 (3): 181-201

	Everingham, M, Eslami, S. M. A, Gool, L. V, Williams, C. K. I, Winn, J and Zisserman, A (2015) The PASCAL Visual Object Classes Challenge: A Retrospective , International Journal of Computer Vision, 111, p. 98-136

	Everingham, M, Eslami, S. M. A, Gool, L. V, Williams, C. K. I., Winn, J and Zisserman, A (2015) The PASCAL Visual Object Classes Challenge: A Retrospective , International Journal of Computer Vision, 111, p. 98-136

	Everingham, M., Van Gool, L., Williams, C. K. I., Winn, J., & Zisserman, A. (2010) The Pascal Visual Object Classes (VOC) Challenge , International Journal of Computer Vision, 88(2), 303-338. https://doi.org/10.1007/s11263-009-0275-4

	Eversmann, P, Ehret, P, Louter, C and Santarsiero, M (2015) Application of hybrid glass-timber elements in architecture , Knippers, J, Niloy, J, Mitra, NJ and Wang, W (eds), Advances in Architectural Geometry 2014, Springer, pp. 47-59

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

	Eversmann, P, Schling, E, Ihde, A and Louter, C (2016) Low Cost Double Curvature. Geometrical and Structural Potentials of Rectangular, Cold-bent Glass Construction , K. Kawaguchi, M. Ohsaki, T. Takeuchi (Eds.): IASS Annual Symposium 2016, Tokyo

	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) Robotic prefabrication of timber structures: towards automated large-scale spatial assembly , Construction Robotics,1(1–4), 49–60

	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

	Ewing, R, Hajrasouliha, A, Neckerman, KM, Purciel-Hill, M and Greene, W (2015) Streetscape Features Related to Pedestrian Activity , Journal of Planning Education and Research, 36(1), pp. 5-15

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