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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	Ostrowska-Wawryniuk K (2021) Prefabrication 4.0: BIM-aided design of sustainable DIY-oriented houses , Int J Architectural Comput 2021; 19: 142–156.

	Ostrowska-Wawryniuk K. (2019) BIM-aided prefabrication for minimum waste DIY timber houses , Architecture in the age of the 4th industrial revolution - proceedings of the 37th eCAADe and 23rd SIGraDi conference. pp.251–258. Porto: eCAADe, SIGraDi, Faculty of Architecture, University of Porto.

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

	Rathnapala, T (2009) Incorporating Prefabrication Processes Into Building Information Modeling , Ph.D. Thesis, University of Wolverhampton

	Schwinn, T, Krieg, O D, & Menges, A (2013) Robotically fabricated wood Plate Morphologies: Robotic prefabrication of a biomimetic, geometrically differentiated, lightweight, finger joint timber plate structure , S Brell-Çokcan & J Braumann (Eds), Rob \| Arch 2012: Robotic Fabrication in Architecture, Art and Design (pp 48-61) Vienna, Austria: Springer Wien New York

	Schwinn, T, Krieg, OD and Menges, A (2012) Robotically fabricated wood plate morphologies. Robotic prefabrication of a biomimetic, geometrically differentiated, lightweight, finger joint timber plate structure , Brell-Cokcan, S and Braumman, J (eds), Robotic fabrication in Architecture, Art and Design, Springer, p. 48-61

	Schwinn, T, Krieg, OD and Menges, A (2012) Robotically fabricated wood plate morphologies. Robotic prefabrication of a biomimetic, geometrically differentiated, lightweight, finger joint timber plate structure , Brell-Çokcan, S and Braumann, J (eds), Robotic fabrication in Architecture, Art and Design, Springer, p. 48-61

	Shahzad, W, Mbachu, J and Domingo, N (2015) Marginal Productivity Gained Through Prefabrication: Case Studies of Building Projects in Auckland , Buildings; Basel, 5(1), pp. 196-208

	Tam CM, Tam VWY, Chan JKW, et al. (2005) Use of prefabrication to minimize construction waste—a case study approach , Int J Constr Manag; 5: 91–101. DOI:10.1080/15623599.2005.10773069

	Tam, V, Tam, C, Zeng, S and Ng, W (2007) Towards adoption of prefabrication in construction , Building and Environment, 42(10), pp. 3642-3654

	Tam, VWY, Tam, CM, Zeng, SX and Ng, WCY (2007) Towards adoption of prefabrication in construction , Building and Environment, 42, pp. 3642-3654

	Wagner HJ, Alvarez M, Groenewolt A, et al. (2020) Towards digital automationflexibility in large- scale timber construction: integrative robotic prefabrication and co-design of the buga wood pavilion , Construction Robotics; 4:3187–3204

	Wagner, H. J., Alvarez, M., Groenewolt, A. & Menges, A. (2020) Towards digital automation flexibility in large-scale timber construction: integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 1-18

	Wagner, H. J., Alvarez, M., Groenewolt, A. & Menges, A. (2020) Towards digital automation flexibility in large-scale timber construction: Integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 4(3–4), 187–204. https://doi.org/10.1007/s41693-020-00038-5

	Wagner, H. J., Alvarez, M., Groenewolt, A., & Menges, A. (2020) Towards digital automation flexibility in large-scale timber construction: Integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 4(3), 187-204. https://doi.org/10.1007/s41693-020-00038-5

	Wagner, H.J., Alvarez, M., Groenewolt, A., Menges, A. (2020) Towards digital automation flexibility in large-scale timber construction: integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 4, 187–204. https://doi.org/10.1007/s41693-020-00038-5

	Wagner, HJ, Alvarez, M, Groenewolt, A and Menges, A (2020) Towards digital automation flexibility in large-scale timber construction: integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 4, pp. 187-204

	Wagner, HJ, Alvarez, M, Gronewolt, A and Menges, A (2020) Towards digital automation flexibility in large-scale timber construction: integrative robotic prefabrication and co-design of the BUGA Wood Pavilion , Construction Robotics, 4(3-4), pp. 187-204

	Zhengdao, C., Hong, J., Xue, F., Qiping, G., Xu, X., & Kayan, M. (2016) Schedule risks in prefabrication housing production in Hong Kong: a social network analysis , Journal of Cleaner Production, 134, 482–494

	Zhengdao, C., Hong, J., Xue, F., Qiping, G., Xu, X., & Luo, L. (2016) SWOT analysis and Internet of Things-enabled platform for prefabrication housing production in Hong Kong , Habitat International, 57, 74–87

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