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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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	Wolf, Tom D. and Tom Holvoet (2004) Emergence Versus Self- Organization: Different Concepts but Promising when Combined , Engineering Self-Organizing Systems, edited S.A. Bruekner, G. Di Marzo Serugendo, A. Karageorgos, R. Nagpal. Berlin Heidelberg: Springler-Verlag. 1–15

	Wolkow, A. (2016) Selectively Self-Reinforcing Aggregates: A Two Particle-Type Granular System for Performance in Tension , Master's Thesis, University of Stuttgart

	Wolkow, A. (2016) Selectively Self-Reinforcing Aggregates: A Two Particle-Type Granular System for Performance in Tension , Master's Thesis, University of Stuttgart

	Wolters, C. A. (2003) Regulation of Motivation: Evaluating an Underemphasized Aspect of Self-Regulated Learning , Educational Psychologist, 38:4, 189-205. doi:10.1207/S15326985EP3804_1

	Wood D, Vailati C, Menges A, et al. (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts—facilitating upscaling and complex shape changes , Constr Build Mater; 165: 782–791

	Wood DM, Correa D, Krieg OD, et al. (2016) Material computation—4D timber construction: towards building-scale hygroscopic actuated, self-constructing timber surfaces , Int J Archit Comput; 14: 49–62

	Wood, D, BrÃ¼tting, J and Menges, A (2018) Self-Forming Curved Timber Plates: Initial Design Modeling for Shape-Changing Material Buildups , Proceedings of IASS Symposium 2018, p. 8

	Wood, D, GrÃ¶nquist, P, Bechert, S, Aldinger, L, Riggenbach, D, Lehmann, K, RÃ¼ggeberg, M, Burgert, I, Knippers, J and Menges, A (2020) From Machine Control to Material Programming: Self-Shaping Wood Manufacturing of a High Performance Curved CLT Structure - Urbach Tower , Proceedings of FABRICATE 2020

	Wood, D, Vailati, C, Menges, A and RÃ¼ggeberg, M (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts - Facilitating upscaling and complex shape changes , Construction and Building Materials, 165, pp. 782-791

	Wood, D, Vailati, C, Menges, A and RÃ¼ggeberg, M (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts - Facilitating upscaling and complex shape changes , Construction and Building Materials, 165, pp. 782-791

	Wood, D, Vailati, C, Menges, A and Rüggeberg, M (2018) Hygroscopically Actuated Wood Elements for Weather Responsive and Self-Forming Building Parts - Facilitating Upscaling and Complex Shape Changes , Construction and Building Materials, 165, p. 782-791

	Wood, D. et al. (2017) Hygroscopically actuated wood elements for weather responsive and self-forming building parts - Facilitating upscaling and complex shape changes , Construction and Building Materials, 165 [online]. Available at: https://doi.org/10.1016/j.conbuildmat.2017.12.134 (Accessed: 17 March 2024)

	Wood, D., Brütting, J. & Menges, A. (2018) Self-Forming Curved Timber Plates: Initial Design Modeling for Shape-Changing Material Buildups , The Annual Symposium of the International Association for Shell and Spatial Structures, IASS 2018. The International Association for Shell and Spatial Structures (IASS)

	Wood, D., Vailati, C., Menges, A. & Rüggeberg, M. (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts – Facilitating upscaling and complex shape changes , Construction and Building Materials, 165, 782–791. https://doi.org/10.1016/j.conbuildmat.2017.12.134Zwierzycki, M., Nicholas, P., & Ramsgaard Thomsen, M. (2018). Localised and Learnt Applications of Machine Learning for Robotic Incremental Sheet Forming. In K. De Rycke, C. Gengnagel, O. Baverel, J. Burry, C. Mueller, M. M. Nguyen, P. Rahm, & M. R. Thomsen (Eds.), Humanizing Digital Reality (pp. 373–382). Springer Singapore. https://doi.org/10.1007/978-981-10-6611-5_32

	Wood, D., Vailati, C., Menges, A. And Rüggeberg, M. (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts –facilitating upscaling and complex shape changes , Construction and Building Materials, 165, 782–791

	Wood, D., Vailati, C., Menges, A., & Rüggeberg, M. (2018) Hygroscopically actuated wood elements for weather responsive and self-forming building parts – Facilitating upscaling and complex shape changes , Construction and Building Materials, 165, 782–791

	Wurm, J. (2007) Glass structures: Design and Construction of Self-Supporting Skins , Birkhauser, Berlin

	X. Li, Y. Dong, P. Peers, and X. Tong (2017) Modeling Surface Appearance from a Single Photograph Using Self-Augmented Convolutional Neural Networks , ACM Transactions on Graphics 36 (4): 1–11

	Yaghan MAJ. (2005) Self-supporting “Genuine” Muqarnas units , Archit Sci Rev; 48: 245–255

	Yaghan, DMA (2007) Self-Supporting Genuine Muqarnas Units , Architectural Science Review, 48(3), pp. 245-255

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