Abstract
Traditional teacher-led methods in higher education such as the customary use of lectures can result in passive learning behaviour being adopted by students. Academic theorists consider alternative approaches that encourage active learning more desirable. This chapter reports on the use of a simulated virtual project designed to introduce project-based learning into the classroom environment. Over a 2-day duration, several pairs of second year undergraduate Architectural Technology students developed competing designs across multiple predetermined work stages. Starting from an initial strategy briefing, students were able to rapidly progress through to a more developed design stage because of the use of BIM technology and processes. Data were collected from participants to measure perceptions of the various areas of learning and skills development that had occurred because of their participation in the virtual project. Findings indicate that students believe they had gained greater depth of subject understanding and developed a range of personal, interpersonal, self-management, and initiative and delivery skills. The conclusion is that further introduction of project-based learning via simulation using virtual projects could be of high value across a range of built environment programmes taught across the higher education sector.
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References
Allison, J., & Pan, W. (2011). Implementing and evaluating the integration of critical thinking into problem based learning in environmental building. Journal for Education in the Built Environment, 6(2), 93–115.
Blades, R., Fauth, B., & Gibb, J. (2012). Measuring employability skills: A rapid review to inform development of tools for project evaluation. London: National Children’s Bureau.
BSI (2013). Specification for information management for the capital/delivery phase of construction projects using building information modelling (PAS 1192–2:2013).
Demian, P. (2007). Theory and practice of project-based learning in built environment education: A CEBE case study on innovative design project work. A case study by the Centre for Education in the Built Environment, pp. 1–9.
Exley, K., & Dennick, R. (2009). Giving a lecture: From presenting to teaching. New York, NY: Routledge.
Forsythe, P., Jupp, J., & Sawhney, A. (2013). Building information modelling in tertiary construction project management education: A programme-wide implementation strategy. Journal for Education in the Built Environment, 8(1), 16–34.
Gledson, B. J. (2016). Hybrid project delivery processes observed in constructor BIM innovation adoption. Construction Innovation Emerald, 16(2), 229–246.
Graaff, E. D. E., & Kolmos, A. (2003). Characteristics of problem-based learning. Int J Engng Ed, 19(5), 657–662.
Horne, M., & Thompson, E. M. (2008). The role of virtual reality in built environment education. Journal for Education in the Built Environment, 3(1), 5–24.
Love, P. E. D., Matthews, J., Simpson, I., Hill, A., & Olatunji, O. A. (2014). A benefits realization management building information modeling framework for asset owners. Automation in Construction, 37, 1–10.
Peterson, F., Hartmann, T., Fruchter, R., & Fischer, M. (2011). Teaching construction project management with BIM support: Experience and lessons learned. Automation in Construction, 20(2), 115–125.
RIBA (2013). RIBA Plan of Work 2013. Retrieved from http://www.architecture.com/TheRIBA/AboutUs/Professionalsupport/RIBAOutlinePlanofWork2013.aspx.
Rosenberg, S., Heimler, R., & Morote, E.-S. (2012). Basic employability skills: A triangular design approach. Education + Training, 54(1), 7–20. Emerald Group Publishing Limited
Sambell, K., McDowell, L., & Montgomery, C. (2012). Assessment for learning in higher education. London: Routledge.
Underwood, J., Ayoade, O., Khosrowshahi, F., Greenwood, D., Pittard, S., & Garvey, R. (2015). Current position and associated challenges of BIM education in UK higher education. BIM Academic Forum.
Woo, J. H. (2006). BIM (building information modeling) and pedagogical challenges. In Proceedings of the 43rd ASC National Annual Conference, pp. 12–14.
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Gledson, B.J., Dawson, S. (2017). Use of Simulation Through BIM-Enabled Virtual Projects to Enhance Learning and Soft Employability Skills in Architectural Technology Education. In: Dastbaz, M., Gorse, C., Moncaster, A. (eds) Building Information Modelling, Building Performance, Design and Smart Construction. Springer, Cham. https://doi.org/10.1007/978-3-319-50346-2_6
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DOI: https://doi.org/10.1007/978-3-319-50346-2_6
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