GIS Enabled PBL Pedagogy: the Effects on Students’ Learning in the Classroom

Yan Li*, Kumar Laxman**
* National Institute of Education, Nanyang Technological University, Singapore
** Centre for Educational Development, Nanyang Technological University, Singapore.
Periodicity:September - November'2009
DOI : https://doi.org/10.26634/jsch.5.2.1028

Abstract

In efforts aimed at acquainting learners with ‘how to learn’ skills rather than static content knowledge, more student-centric instructional approaches are being increasingly adopted in informing curriculum design and delivery. Technology-rich problem solving environments offer great promise in scaffolding and facilitating student-centred learning. Geographic information system is one powerful technology that enables learners to become proficient spatial problem solvers, analytical users of geographic information and expert decision makers. This paper investigates the pedagogical benefits of GIS in influencing students’ problem solving performances in Singapore. Data was collected by administering a likert-scale based questionnaire constructed specifically for this study and analysed using statistical method. Students participated in this research highlighted many of the instructional strengths of GIS that enabled them to become competent problem solvers and self-directed learners. They also pointed out some of the challenges which educators need to bear in mind in the development and enactment of GIS enabled pedagogy.

Keywords

Geographic Information systems (GIS), Educational Technology, Problem-Based Learning.

How to Cite this Article?

Yan Li and Dr. Kumar Laxman (2009). GIS Enabled PBL Pedagogy: the Effects on Students’ Learning in the Classroom. i-manager’s Journal on School Educational Technology. 5(2), 15-27. https://doi.org/10.26634/jsch.5.2.1028

References

[1]. Audet, R. H. & Paris, J. (1997). GIS implementation model for schools: Assessing the critical concerns. Journal of Geography, 96(6), 293-300.
[2]. Baker, T. & White, S. (2003). The effects of GIS on students' attitudes, self-efficacy and achievement in middle school science classrooms. Journal of Geography, 102, 243-254.
[3]. Bednarz, S. W. (2007). Impact and success: Evaluating a GIS training institute. Paper presented at the 19th Annual ESRI User Conference.
[4]. Bednarz, S. W. & Audet, R. H. (1999). The status of GIS technology in teacher preparation programs. Journal of Geography, 98(2), 60-77.
[5]. Bodzin, A. M. & Anastasio, D. (2006). Using webbased GIS for earth and environmental systems education. Journal of Geoscience Education, 54(3), 297-300.
[6]. Caulfield, P. (1991). From Brazil to Buncombe County: Freire and posing problems. The Educational Forum, 55(4), 307-318.
[7]. Drennon, C. (2005). Teaching geographic information systems in a problem-based learning environment, Journal of Geography in Higher Education, 29(3), 385-402.
[8]. Estes, C. (2004). Promoting student-centered learning in experiential education. The Journal of Experiential Education, 27(2), 141-161.
[9]. Fournier, E. (2002). Geography and problem-based learning. The Journal of General Education, 51(4), 293- 305.
[10]. Gall, M., Borg, W. & Gall, J. (1996) Educational th Research, An Introduction (6 Edition). USA: Longman
[11]. Halvorson, S. & Westcoat, J. (2002). Problem-based inquiry of world water problems in large undergraduate classes. Journal of Geography, 101, 91-102.
[12]. Hardwick, S. W. (2001). The status of geography in higher education in the United States. Paper presented at the International Network for Learning and Teaching (INLT) Plymouth Conference.
[13]. Keiper, T. (1999). GIS for elementary students: An inquiry into a new approach to learning geography. Journal of Geography, 98(2), 47-59.
[14]. Kerski, J. (2003). The implementation and effectiveness of geographic information systems technology and methods in secondary education. PhD dissertation. The University of Colorado.
[15]. Liu, Y., Bui, E. N., Chang, C-H. & Lossman, H. G. (2010). PBL-GIS in Secondary Geography Education: Does it Result in Higher-order Learning Outcomes? Journal of Geography (forthcoming).
[16]. National Research Council. 2006. Learning to Think Spatially: GIS as a Support System in the K-12 Curriculum. National Academy Press, Washington, D.C.
[17]. Palladino, S. (1994). A role for geographic information system in the secondary schools: An assessment of the current status and future possibilities. University of California, Santa Barbara.
[18]. Patterson, M. W., Reeve, K. & Page, D. (2003). Integrating geographic information systems into the secondary curricula. Journal of Geography, 102(6), 275- 281.
[19]. Peterson, P. A. (2007). Geographic information systems: Instruction in South Dakota's secondary classrooms. South Dakota State University.
[20]. Rutherford, D. & Lloyd, W. (2001). Assessing a computer-aided instructional strategy in a world geography course. Journal of Geography in Higher Education, 25(3), 341-355.
[21]. Summerby-Murray, R. (2001). Analyzing heritage landscapes with historical GIS: Contributions from problem-based inquiry and constructivist pedagogy. Journal of Geography in Higher Education, 25(1), 37-52.
[22]. Tittle, C. R. & Hill, J. R. (1967) Attitude Measurement and Prediction of Behaviour: An Evaluation of Conditions and Measurement Techniques. Sociometry, 30(2), 199- 213.
[23]. Van Demark, P. 1992. Where is desktop GIS headed? Urban and Regional Information System Association (URISA) Proceedings. V3 (2), pp.54-61.
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