Abstract
Educators dealing with architectural education must anticipate the changes in the discipline and act to prepare students to face the challenges of the future. Therefore, it is necessary to provide them with state-of-the-art knowledge and relevant skills. To achieve that for new design techniques requires education. One new technique is parametric design, which has become one of the commonly used tools in architectural design practice. An overview is provided in this article of the present teaching programme, concerning parametric design, in the Faculty of Architecture at Gdańsk University of Technology (FA-GUT), Gdańsk, Poland.
Authors (2)
Cite as
Full text
- Publication version
- Accepted or Published Version
- License
- Copyright (2019 WIETE)
Keywords
Details
- Category:
- Articles
- Type:
- artykuły w czasopismach
- Published in:
-
World Transactions on Engineering and Technology Education
no. 17,
pages 448 - 453,
ISSN: 1446-2257 - Language:
- English
- Publication year:
- 2019
- Bibliographic description:
- Cudzik J., Radziszewski K.: Parametric design in architectural education// World Transactions on Engineering and Technology Education -Vol. 17,iss. 4 (2019), s.448-453
- Bibliography: test
-
- Kolarevic, B., Architecture in the Digital Age. Design and Manufacturing. London and New York: Routledge, 17-18 (2003). open in new tab
- Jabi, W., Parametric Design for Architecture. London: Laurence King Publishing, 9-11 (2013).
- Kolarevic, B., Architecture in the Digital Age. Design and Manufacturing. London and New York: Routledge, (2003). open in new tab
- Lynn, G., Gage, M.F., Composites, Surfaces, and Software: High Performance Architecture. New Haven, Yale School of Architecture, 104 (2010). open in new tab
- Schumacher, P., Parametricism as Style -Parametricist Manifesto. London, 1-3 (2008).
- Gane, V., Parametric Design -a Paradigm Shift? Master Thesis -MIT, 37 (2004).
- Weisstein, E.W., Icosahedron, From MathWorld -a Wolfram Web Resource (2019), 1 July 2019. www.mathworld.wolfram.com/Icosahedron.html open in new tab
- Lakatos, I., Proofs and Refutations: The Logic of Mathematical Discovery. Cambridge: Cambridge University Press, 16 (2015).
- Hartmann, E., Geometry and Algorithms for Computer Aided Design. Darmstadt: Department of Mathematics Darmstadt University of Technology, 113 (2003).
- Pottmann, H. and Simon, F., Ruled surfaces for rationalization and design in architecture. Proc. 30th Annual Conf. of the Assoc. for Computer Aided Design in Architecture. New York, United States of America, 103-109 (2010).
- Weisstein, E.W., Ruled Surfaces, from MathWorld -a Wolfram Web Resource (2019), 1 July 2019. www.mathworld.wolfram.com/topics/RuledSurfaces.html open in new tab
- Piegl, L. and Tiller, W., Curve and surface constructions using rational B-splines. Computer-Aided Design, 19, 9, 485-498 (1987). open in new tab
- Aurenhammer, F. and Klein, R., Handbook of Computational Geometry. Amsterdam: North-Holland, 201-290 (2000). open in new tab
- Romaniak, K. and Filipowski, S., Parametric design in the education of architecture students. World J. of Engng. and Technol. Educ., 16, 4, 386-391 (2018).
- Verified by:
- Gdańsk University of Technology
seen 309 times