Reconsidering Teaching Construction in Architectural Education

Main Article Content

Sardar S. Shareef
Hozan Latif Rauf
Ejeng Bassey Ukabi

Abstract

This paper critically examines the weakening connection between design and construction in architectural education, highlighting the underrepresentation of construction courses in comparison to their design counterparts. By analyzing contemporary pedagogical methods, it aims to uncover a more effective teaching approach that simultaneously nurtures students’ enthusiasm for construction and design, emphasizing the synergy between technical proficiency and creative vision. Proposing a hands-on, problem-solving methodology integrated within design studios, this study suggests a paradigm shift towards an ontological observational approach. It argues for a transformative change in perception among educators and students alike, advocating for a unified educational framework that fosters technical and theoretical coherence, ultimately contributing to sustainable architectural practices.

Article Details

How to Cite
Shareef, S. S., Rauf, H. L., & Ukabi, E. B. . (2024). Reconsidering Teaching Construction in Architectural Education . Journal of Philology and Educational Sciences, 3(1), 43–57. https://doi.org/10.53898/jpes2024314
Section
Research Articles

References

Alakavuk, E. (2016). Integration of building construction courses in the architecture education programme. In SHS Web of Conferences (Vol. 26, p. 01036). EDP Sciences.

Allen, E., & Iano, J. (2019). Fundamentals of building construction: materials and methods. John Wiley & Sons.

Amato, A., Thilakaratne, R., Henri, J., & Trinidad, S. (2004). Technology enhanced construction technology teaching. Paper presented at the IEEE International Conference on Advanced Learning Technologies, 2004. Proceedings.

Canizaro, V. B. (2012). Design-build in architectural education: Motivations, practices, challenges, successes and failures. ArchNet-IJAR: International Journal of Architectural Research, 6(3), 20.

Clayton, M. J., Warden, R. B., & Parker, T. W. (2002). Virtual construction of architecture using 3D CAD and simulation. Automation in Construction, 11(2), 227-235.

Cushman, R. F., & Loulakis, M. C. (2001). Design-build contracting handbook. Wolters Kluwer.

Diekmann, J. E. (2007). Past perfect: Historical antecedents of modern construction practices. Journal of Construction Engineering and Management, 133(9), 652-660.

Europe, E. I. (2014). Chapter three flexibility in architectural education in Europe Herman Neuckermans. Paper presented at the MIMED Forum IV: Flexibility in Architectural Education.

Farrow, C. B., & Wetzel, E. (2021). An active learning classroom in construction management education: Student perceptions of engagement and learning. International Journal of Construction Education and Research, 17(4), 299-317.

Fowles, B. (1984). Design-build projects in architectural education. Design Studies, 5(1), 7-14.

Frampton, K. (2001). Studies in tectonic culture: The poetics of construction in nineteenth and twentieth century architecture: Mit Press.

Furtado, C. S. B. (2014). The Construction of Architecture: Notes for an Entrance Exam for a Professor at FAUUSP. Journal of Engineering, 2(2), 257-262.

Gaber, T. (2014). The agency of making and architecture education: Design-build curriculum in a new school of architecture. ArchNet-IJAR: International Journal of Architectural Research, 8(3), 21.

Guelle, G. B. (2022). Textbook. A Guide to the Teaching of Construction. Dimensions. Journal of Architectural Knowledge, 2(3), 335-354.

Ham, J. J., & Arch, B. (2004). On representation and construction in a tectonic design studio: Deakin University, Victoria.

Hartoonian, G. (1986). Poetics of technology and the new objectivity. Journal of Architectural Education, 40(1), 14-19.

Hartoonian, G. (1994). Ontology of construction: On nihilism of technology in theories of modern architecture. Cambridge University Press

Hurol, Y. (2015). The tectonics of structural systems: An architectural approach: Routledge.

Ilkovič, J., Ilkovičová, L., & Špaček, R. (2014). To think in architecture, to feel in structure: Teaching structural design in the faculty of architecture. Global Journal of Engineering Education, 16(2), 59-65.

Lee, S., Nikolic, D., & Messner, J. I. (2015). Framework of the virtual construction simulator 3 for construction planning and management education. Journal of Computing in Civil Engineering, 29(2), 05014008.

Lonman, B. (2010). Constructing design in the studio: Projects that include making. Kinnard, J. and Goodwin.

Masri, S. S. (2017). Improving architectural pedagogy toward better archistructural design values. Athens Journal of Architecture, 3(2), 2-12.

Mokhaberi, G. (2010). Structural and technological principles within architecture education. Eastern Mediterranean University (EMU),

Obla, M., & Ukabi, E. (2021). Education in the virtual space: A sustainable strategy for achieving tension-free and inclusive learning in COVID-19 dispensation. Journal of Studies in Science and Engineering, 1(2), 17-35.

Pantoja, M. F. F., Moreira, P., & Lomardo, L. (2012). Towards the performative architecture through the tectonic vision. Int Sci J Archit Eng.

Rahman, I., Chapman, T., Kazmi, M. A., & Ghasemzadeh, F. (2020). Enabling the potential of 5g: Solutions to the technical challenges of the diverse 5g bands. IEEE Wireless Communications, 27(2), 6-11.

Rane, N. (2023). Potential role and challenges of ChatGPT and similar generative artificial intelligence in architectural engineering. Available at SSRN 4607767.

Rauf, H. L., Shareef, S. S., & Othman, N. N. (2021). Innovation in architecture education: Collaborative learning method through virtual reality. Journal of Higher Education Theory and Practice, 21(16), 33-40.

Rauf, H. L., Shareef, S. S., & Ukabi, E. (2019). Understanding the relationship between construction courses and design in architectural education. International Journal of Recent Technology and Engineering, 8(3), 3201-3207.

Shareef, S. S., & Farivarsadri, G. (2020). An innovative framework for teaching/learning technical courses in architectural education. Sustainability, 12(22), 9514.

Sir, M. M., Wunas, S., Parung, H., & Patanduk, J. (2015). Tectonic model of architecture tongkonan toraja.

Söffker, G. H., & Deplazes, A. (2005). Constructing architecture: Materials, processes, structures: Springer Science & Business Media.

Staib, G., Dörrhöfer, A., & Rosenthal, M. (2008). Components and systems: Modular construction-design, structure, new technologies: De Gruyter.

Tozer, W. R. E. (2011). A theory of making: Architecture and art in the practice of Adolf Loos. UCL (University College London),

Ukabi, E. (2015). Conserving the architects’ jewel in the 21st century. Architecture Research, 5(1), 10-15.

Uluoğlu, B. (1990). Mimari tasarım eğitimi tasarım bilgisi bağlamında stüdyo eleştirileri.

Voyatzaki, M. (2002). Construction history in the architectural curricula of Europe. Europe, 2003, 2004-2005.

Yunus, R. H. M. (2001). A study on learning and teaching construction technology related to design: A case for architectural schools in Malaysia. University of Sheffield.