Abstract
University College London (UCL) has recently implemented a distinctive programme that connects curricula across seven engineering disciplines. The Integrated Engineering Programme (IEP) contributes interdisciplinary, experiential and authentic learning opportunities for students, aimed at developing professional and design skills. Here we investigate the impact of an ipsative learning approach, based on encouraging students to reflect on their progress in a problem/project-based learning (PBL/PjBL) setting. We analyse reflective writing produced by students in a five week PBL project. Their reflections support the view that students gained an increased understanding of how to achieve results in team-based projects and of the processes and effort required to achieve higher quality research. We conclude that the addition of ipsative elements within a PBL/PjBL system offers benefits to student development of the kind that aligns well with current drives in engineering education to produce undergraduates who are ‘work ready’ by the time they graduate.
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References
Allen, D. E., Donham, R. S., & Bernhardt, S. A. (2011). Problem-based learning. New Directions for Teaching and Learning, 128, 21–29.
Andrews, J., Clark, R., Thompson, G., & Evans, C. (2011). Reviewing and evaluation CDIO (Conceive, Design, Implement & Operate): An empirical approach to engineering education curriculum development. In Problem Based Learning Annual Conference, Nottingham.
Black, P., & William, D. (1998). Assessment and classroom learning. Assessment in Education: Principles, Policy & Practice, 5(1), 7–74.
Brophy, J. E. (1981). Teacher praise: a functional analysis. Review of Educational Research, 51(1), 5–32.
Finelli, C., Bergom, I., & Mesa, V. (2011) Student teams in the engineering classroom and beyond: Setting up students for success. Centre for Research on Learning and Teaching University of Michigan. http://www.crlt.umich.edu/sites/default/files/resource_files/CRLT_no29.pdf Accessed 21 December 2015.
Hattie, J. (2009). Visible learning. A synthesis of over 800 meta-analyses relating to achievement. London: Routledge.
Hattie, J., & Timperley, H. (2007). The power of feedback. Review of Educational Research, 77, 81–112.
Hemker, H. C. (2001). Critical perceptions on problem-based learning. European Review, 9, 269–274.
Hughes, G. (2014). Ipsative assessment: motivation through marking progress. Basingstoke: Palgrave Macmillan.
IDEO. (2014). Human-centred design toolkit. 2nd edition. Seattle: Bill & Melinda Gates Foundation. http://d1r3w4d5z5a88i.cloudfront.net/assets/toolkit/IDEO.org_HCD_ToolKit_English-5fef26ba5fa5761a3b021057d1d4a851.pdf Accessed 8 January 2016.
Kulhavy, R. W., & Stock, W. (1989). Feedback in written instruction: the place of response certitude. Educational Psychology Review, 1(4), 279–308.
Mitchell, J. E., Bains, S., Nyamapfene, A., & Tilley, E. (2015). Work in progress: Multi-disciplinary curriculum review of engineering education. UCL’s integrated engineering programme. IEEE EDUCON 2015 Conference. Estonia: IEEE.
Royal Academic of Engineering (2007). Educating engineers for the 21st century. London: Royal Academic of Engineering.
Savin Badin, M., & Howell, M. C. (2004). Foundations of problem-based learning, the society for research into higher education. Maidenhead: Open University Press, McGraw-Hill Education.
Schwartz, F., & White, K. (2000). Making sense of it all: giving and getting online course feedback. In K. W. White & B. H. Weight (Eds.), The online teaching guide: A handbook of attitudes, strategies, and techniques for the virtual classroom (pp. 57–72). Boston: Allyn and Bacon.
Shute, V. J. (2006). Assessments for learning: Great idea, but do they work? Paper presented at the annual meeting of the American Educational Research Association, San Francisco, CA.
Stobart, G. (2008). Testing times: The uses and abuses of assessment. Abingdon: Routledge.
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Tilley, E., Roach, K. (2017). Ipsative Learning: A Personal Approach to a Student’s PBL Experience Within an Integrated Engineering Design Cornerstone Module. In: Hughes, G. (eds) Ipsative Assessment and Personal Learning Gain. Palgrave Macmillan, London. https://doi.org/10.1057/978-1-137-56502-0_7
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DOI: https://doi.org/10.1057/978-1-137-56502-0_7
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