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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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	R. Maleczek, G. Stern, A. Metzler, and C. Preisinger (2020) Large Scale Curved Folding Mechanisms , Impact: Design With All Senses;Proceedings of the Design Modelling Symposium, Berlin 2019. Cham: Springer Nature. 539–553

	Rupert Maleczek, Gabriel Stern, Astrid Metzler and Clemens Preisinger (2019) Large Scale Curved Folding Mechanisms , Impact: Design with all Senses; Proceedings of the Design Modelling Symposium, Berlin 2019. 539–553

	Gosselin, C., Duballet, R., Roux, P., Gaudilliere, N., Dirrenberger, J. & Morel, P. (2016) Large-scale 3D printing of ultra-high performance concrete–a new processing route for architects and builders , Materials & Design, 100, 102-109. https://doi.org/10.1016/j.matdes.2016.03.097Khoshnevis, B. (2004). Automated construction by contour crafting—related robotics and information technologies. Automation in construction, 13(1), 5-19. https://doi.org/10.1016/j.autcon.2003.08.012Le, T. T., Austin, S. A., Lim, S., Buswell, R. A., Gibb, A. G., & Thorpe, T. (2012). Mix design and fresh properties for high-performance printing concrete. Materials and structures, 45(8), 1221-1232. https://doi.org/10.1617/s11527-012-9828-zLi, Z., Wang, L., Ma, G., Sanjayan, J., & Feng, D. (2020). Strength and ductility enhancement of 3D printing structure reinforced by embedding continuous micro-cables. Construction and Building Materials, 264, 120196. https://doi.org/10.1016/j.conbuildmat.2020.120196Lim, J. H., Weng, Y., & Pham, Q. C. (2020). 3D printing of curved concrete surfaces using Adaptable Membrane Formwork. Construction and Building Materials, 232, 117075. https://doi.org/10.1016/j.conbuildmat.2019.117075Ma, G., Li, Z., Wang, L., & Bai, G. (2019). Micro-cable reinforced geopolymer composite for extrusion-based 3D printing. Materials Letters, 235, 144-147. https://doi.org/10.1016/j.matlet.2018.09.159Masoud Akbarzadeh. Andrei Nejur.(2019). Polyframe. From https://psl.design.upenn.edu/polyframe/Mechtcherine, V., Nerella, V. N., Will, F., Näther, M., Otto, J., & Krause, M. (2019). Large-scale digital concrete construction–CONPrint3D concept for on-site, monolithic 3D-printing. Automation in Construction, 107, 102933. https://doi.org/10.1016/j.autcon.2019.102933Salet, T. A., Ahmed, Z. Y., Bos, F. P., & Laagland, H. L. (2018). Design of a 3D printed concrete bridge by testing. Virtual and Physical Prototyping, 13(3), 222-236. https://doi.org/10.1080/17452759.2018.1476064

	Krieg O.D. et al. (2015) Modeling curved-layered printing paths for fabricating large-scale construction components , Additive Manufacturing, 12, 216–230. https://doi.org/10.1016/j.addma.2016.06.004Rael, R., & Fratello, V. S. (2015). Bloom [Project]. Retrieved from http://emergingobjects.com/project/bloom-2/Raspall, F., Banon, C., & Maheshwary, S. (2020). Timescapes: Design and Additive Manufacturing Workflows for freeform, ornamental architectural surfaces. Congreso SIGraDi 2020. Sao Paulo: Blucher, 2020, 306–311. https://doi.org/10.5151/sigradi2020-42Sass, L. (2004). Design for Self Assembly of Building Components using Rapid Prototyping. Retrieved from http://diyhpl.us/~bryan/papers2/Design%20for%20Self%20Assembly%20of%20Building%20Components%20using%20Rapid%20Prototyping.pdf Proceedings/ISBN 0–9541183-2-4, Architecture in the Network Society. 22nd eCAADe Conference, 95–104

	Anishchenko, M (2020) Bespoke knitted textiles for large-scale architectural projects , Paoletti, I and Nastri, M (eds), SpringerBriefs in Applied Sciences and Technology, Springer, pp. 75-82

	Ashrafi, N, Nazarian, S, Meisel, NA and Duarte, JP (2020) Experimental prediction of material deformation in large-scale additive manufacturing of concrete , Additive Manufacturing. https://doi.org/10.1016/j.addma.2020.101656

	B Ball. L., N. Long, K. Fleming, C. Balbach, and P. Lopez (2020) An open-source analysis framework for large-scale building energy modeling , Journal of Building Performance Simulation 13 (5): 487–500

	Dreifus, G. (2020) Analysis of Tool Path Optimization in Large Scale Additive Manufacturing [phd Thesis] , Massachusetts Institute of Technology

	Hu, Q., Yang, B., Xie, L., Rosa, S., Guo, Y., Wang, Z., Trigoni, N., &Markham, A. (2020) RandLA-Net: Efficient semantic segmentation of large-scale point clouds , 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), Seattle, WA, USA, (pp. 11105-11114). https://doi.org/10.1109/CVPR42600.2020.01112

	Ilmar Hurkxkens, Ammar Mirjan, Fabio Gramazio, Mathias Kohler, and Christophe Girot (2020) Robotic Landscapes: Designing Formation Processes for Large Scale Autonomous Earth Moving , Impact: Design With All Senses, 69–81

	Kennicott, P., (2020) The pandemic has shown us what the future of architecture could be , The Washington Post. [cited 2022 January 15]. Available from: https://www.washingtonpost.com/magazine/2020/07/13/pandemic-has-shown-us-what-future-architecture-could-be/Mitani, J., and Igarashi, T., 2011. "Interactive design of planar curved folding by reflection". Pacific conference on computer graphics and applications-short papers, Kaohsiung, Taiwan, pp. 21-23

	Kuliga, S., Charlton, J, Rohaidi, H. F., Isaac, L. Q. Q., Joos, M., Christopher, H. & Michael, J. (2020) Developing a replication of a wayfinding study: From a large-scale real building to a virtual reality simulation , Spatial Cognition XII - 12th International Conference, Spatial Cognition 2020, (pp. 126-142)

	Körner, Axel, Larissa Born, Oliver Bucklin, Seiichi Suziki, Lauren Vasey, Götz T. Gresser, Achim Menges, and Jan Knippers (2020) Integrative Design and Fabrication Methodology for Bio-Inspired Folding Mechanisms for Architectural Applications , Computer-Aided Design 133: 102988. https://doi.org/10.1016/j.cad.2020.102988

	Matrone, F., Lingua, A., Pierdicca, R., Malinverni, E. S., Paolanti, M., Grilli, E., Remondino, F., Murtiyoso, A., & Landes, T. (2020) A benchmark for large-scale heritage point cloud semantic segmentation , The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLIII-B2-2020, 1419-1426. https://doi.org/10.5194/isprs-archives-xliii-b2-2020-1419-2020

	Riccardo Foschi, Robby Kraft, Rupert Maleczek, Klara Mundilova and Tomohiro Tachi (2021) How to use parametric curved folding design methods – a case study and comparison , To appear in Proceedings of the IASS Annual Symposium 2020/21

	Sanadiya, N., Dimopoulou, M., Vijay, Y., Dritsas, S. and Fernandez, J. (2018) Large-Scale Additive Manufacturing with Bioinspired Cellulosic Materials , Scientific Reports, 8, 8642, https://doi.org/10.1038/s41598-018-26985-2Sanandiya, N.D., Ottenheim, C., Phua, J.W. Caligiani, A., Dritsas, S. and Fernandez, J. (2020) Circular manufacturing of chitinous bio-composites via bioconversion of urban refuse, Scientific Reports, 10, 4632. https://doi.org/10.1038/s41598-020-61664-1

	Shariq, MH and Hughes, BR (2020) Revolutionising building inspection techniques to meet large-scale energy demands: A review of the state-of-the-art , Renewable and Sustainable Energy Reviews, 130(109979), p. -

	Shneel Malik, Julie Hagopian, Sanika Mohite, Cao Lintong, Laura Stoffels, Sofoklis Giannakopoulos, Richard Beckett, Chrisopher Leung, Javier Ruiz, Marcos Cruz, and Brenda Parker (2020) Robotic Extrusion of Algae-Laden Hydrogels for Large-Scale Applications , Global Challenges, 4: 2070011

	Shneel Malik, Julie Hagopian, Sanika Mohite, Cao Lintong, Laura Stoffels, Sofoklis Giannakopoulos, Richard Beckett, Christopher Leung, Javier Ruiz, Marcos Cruz, and Brenda Parker (2020) Robotic extrusion of algae-laden hydrogels for large-scale applications , Global Challenges4 (1): 1900064

	Stehling, H., Scheurer, F., & Usai, S. (2020) Large-scale Free-form Timber Grid Shell: Digital Planning of the New Swatch Headquarters in Biel, Switzerland , J. Burry, J. Sabin, B. Sheil, & M. Skavara, Fabricate 22 (pp. 21-217). UCL Press; JSTOR

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