Abstract
This research examines how augmented reality (AR) tools can be integrating into informal learning experiences in ways that support children’s engagement in science in their communities. We conducted a series of video-based studies over 4 years in an arboretum and a nature center with families and children. In this study (the four iteration of the Tree Investigators design-based research project), 1-hour sessions were conducted at a summer camp for 6 weeks at Shaver’s Creek Environmental Center. The sessions supported children to learn about the life cycle of trees with iPad computer tablets. Data collected included pre- and post-assessments and video records of children engaged in the science practice of observation. Analysis included the Wilcoxon signed-rank test of 42 paired assessments, the microethnographic analysis of transcripts of dyads and triads engaged with AR tools, and the creation of one case study of a pair of boys, who were representative of others in the dataset. Across the dataset, we found three sociotechnical interactions that contributed to triggering situational interests during the summer camp learning experience: (a) discoveries in the environment related to nature, (b) prior experiences that led to anticipation or expectation about what would happen, and (c) hands-on experiences with natural phenomenon. Implications of the study include that AR tools can trigger and maintain children’s situational interest and science learning outcomes during context-sensitive informal mobile learning.
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Abbreviations
- AR:
-
Augmented reality
- ILI:
-
Informal learning institution
References
Sharples, M., Pea, R.D.: Mobile Learning. In: Sawyer, R.K. (ed.) Cambridge handbook of the learning sciences (2nd edition), pp. 1513–1573. Cambridge University Press, New York, NY (2014)
Pea, R.D.: Practices of distributed intelligence and designs for education. In: Salomon G. (ed.) Distributed cognitions (pp. 47–87). Cambridge University Press, New York, NY (1993)
Land, S.M., Zimmerman, H.T.: Socio-technical dimensions of an outdoor mobile learning environment: a three-phase design-based research investigation. Educ. Tech. Res. Dev. 63(2), 229–255 (2015)
Sharples, M.: Forward to education in the wild. In: Brown E. (ed.) Education in the wild: contextual and location-based mobile learning in action (2010)
Barron, B.: Interest and self-sustained learning as catalysts of development: a learning ecology perspective. Hum. Dev. 49(4), 193–224 (2006)
Brown, J.S., Collins, A., Duguid, P.: Situated cognition and the culture of learning. Educ. Researcher 18(1), 32–42 (1989)
Rogoff, B.: The cultural nature of human development. Oxford University Press, London, UK (2003)
Falk, J.H., Dierking, L.D.: Learning from museums: visitor experiences and the making of meaning. AltaMira Press, Walnut Creek, CA (2000)
Hannafin, M.J., Land, S.M., Oliver, K.: Open learning environments: foundations and models. In: Reigeluth, C. (ed.) Instructional design theories and models, vol. 2, pp. 115–140. Erlbaum, Mahway, NJ (1999)
Hannafin, M.J., Hill, J.R., Land, S.M., Lee, E.: Student-centered, open learning environments: research, theory, and practice. In: Spector, M., Merrill, M.D., Merrienboer, J., Driscoll, M. (eds.) Handbook of research for educational communications and technology, pp. 641–651. Routledge, London, UK (2013)
Cahill, C., Kuhn, A., Schmoll, S., Lo, W.T., McNally, B., Quintana, C.: Mobile learning in museums: how mobile supports for learning influence student behavior. In: Proceedings of the International Conference on Interaction Design and Children. 10, 21–28, USA (2011)
Klopfer, E.: The importance of reality. In Augmented learning: research and design of mobile educational games. The MIT Press, London, UK (2008)
Walker, K.: Designing for museum learning: visitor-constructed using mobile technologies. In: Luckin, R., Puntambekar, S., Goodyear, P., Grabowski, B., Underwood, J., Winters, N. (eds.) Handbook of design in educational technology, pp. 322–335. Routledge, New York, NY (2013)
Chen, C.C., Huang, T.C.: Learning in a u-museum: developing a context-aware ubiquitous learning environment. Comput. Educ. 59(3), 873–883 (2012)
Dunleavy, M., Dede, C.: Augmented reality teaching and learning. In: Spector, J.M., Merrill, M.D., Elen, J., Bishop, M.J. (eds.) Handbook of research on educational communications and technology, pp. 735–745. Springer, New York, NY (2014)
Milgram, P., Kishino, F.: A taxonomy of mixed reality visual displays. IEICE Trans. Inf. Syst. E77-D, 1–15 (1994)
Zimmerman, H.T., Land, S.M., Mohney, M., Choi, G., Maggiore, C., Kim, S., Jung, Y.J., Dudek, J.: Using augmented reality to support observations about trees during summer camp. In: Proceedings of the 14th International Conference on Interaction Design and Children, pp. 395–398. ACM, New York, NY (2015)
Yuen, S., Yaoyuneyong, G., Johnson, E.: Augmented reality: an overview and five directions for AR in education. J. Educ. Technol. Dev. Exch. 4(1), 119–140 (2011)
Klopfer, E., Perry, J., Squire, K., Jan, M.-F., Steinkuehler, C.: Mystery at the museum: a collaborative game for museum education. In: Proceedings of the International Conference on Computer Supported Collaborative Learning, pp. 316–320 (2005)
Dunleavy, M., Dede, C., Mitchell, R.: Affordances and limitations of immersive participatory augmented reality simulations for teaching and learning. J. Sci. Educ. Technol. 18(1), 7–22 (2009)
Yatani, K., Onuma, M., Sugimoto, M., Kusunoki, F.: Musex: a system for supporting children’s collaborative learning in a museum with PDAs. Syst. Comput. Jpn. 35(14), 54–63 (2004)
Looi, C.-K., Seow, P., Zhang, B., So, H.-J., Chen, W., Wong, L.-H.: Leveraging mobile technology for sustainable seamless learning: a research agenda. Br. J. Educ. Technol. 41(2), 154–169 (2010)
Chiang, T.H., Yang, S.J., Hwang, G.J.: Students’ online interactive patterns in augmented reality-based inquiry activities. Comput. Educ. 78, 97–108 (2014)
Zimmerman, H.T., Land, S.M., McClain, L.R., Mohney, M.R., Choi, G.W., Salman, F.H.: Tree investigators: supporting families and youth to coordinate observations with scientific knowledge. Int. J. Sci. Educ. 5(1), 44–67 (2015)
Krapp, A., Hidi, S., Renninger, K.A.: Chapter 1 Interest, learning, and development. In: Renninger, K.A., Hidi, S., Krapp, A. (eds.) The role of interest in learning and development, pp. 3–25. Lawrence Erlbaum Associates, NJ (1992)
Hidi, S.: Interest and its contribution as a mental resource for learning. Rev. Educ. Res. 60(4), 549–571 (1990)
Hidi, S., Renninger, K.A.: The four-phase model of interest development. Educational Psychologist. 41(2), 111–127 (2006)
Dohn, N.B.: Situational interest of high school students who visit an aquarium. Sci. Educ. 95(2), 337–357 (2011)
Zimmerman, H.T., Bell, P.: Where young people see science: everyday activities connected to science. Int. J. Sci. Educ. 4(1), 25–53 (2014)
Zimmerman, H.T.: Participating in science at home: recognition work and learning in biology. J. Res. Sci. Teach. 49(5), 597–630 (2012)
Basu, S.J., Calabrese Barton, A.: Developing a sustained interest in science among urban minority youth. J. Res. Sci. Teach. 44(3), 466–489 (2007)
Dabney, K.P., Tai, R.H., Almarode, J.T., Miller-Friedmann, J.L., Sonnert, G., Sadler, P.M., Hazari, Z.: Out-of-school time science activities and their association with career interest in STEM. Int. J. Sci. Educ. 2(1), 63–79 (2012)
Leibham, M.B., Alexander, J.M., Johnson, K.E.: Science interests in preschool boys and girls: relations to later self-concept and science achievement. Sci. Educ. 97, 574–593 (2013)
Tai, R.H., Lui, C.Q., Maltese, A.V., Fan, X.: Planning early for careers in science. Science 312, 1143–1144 (2006)
Sobel, D.: Place-based education: connecting classroom and community. The Orion Society, Great Barrington, MA (2004)
Smith, G.A.: Place-based education learning to be where we are. Phi Delta Kappan 83(8), 584–594 (2002)
Lim, M., Barton, A.C.: Science learning and a sense of place in a urban middle school. Cult. Sci. Educ. 1, 107–142 (2006)
Gruenewald, D.A.: The best of both worlds: a critical pedagogy of place. Educ. Researcher 32(4), 3–12 (2003)
Hsi, S.: A study of user experiences mediated by nomadic web content in a museum. J. Comput. Assist. Learn. 19(3), 308–319 (2003)
Lyons, L.: Designing opportunistic user interfaces to support a collaborative museum exhibit. In: Proceedings of the 9th International Conference on Computer Supported Collaborative Learning, 1, pp. 375–384. International Society of the Learning Sciences, (2009)
Zimmerman, H.T., Land, S.M.: Facilitating place-based learning in outdoor informal environments with mobile computers. Tech. Trends. 58(1), 77–83 (2014)
Holstermann, N., Grube, D., Bögeholz, S.: Hands-on activities and their influence on students’ interest. Res. Sci. Educ. 40(5), 743–757 (2009)
Barab, S., Squire, K.: Design-based research: Putting a stake in the ground. J. Learn. Sci. 13(1), 1–14 (2004)
Sandoval, W.A., Bell, P.: Design-based research methods for studying learning in context: introduction. Educ. Psychol. 39(4), 199–201 (2004)
Hoadley, C.M.: Methodological alignment in design-based research. Educ. psychol. 39(4), 203–212 (2004)
Bell, P., Lewenstein, B., Shouse, A.W., Feder, M.A., (eds.).: Learning science in informal environments: people, places, and pursuits. National Academies Press. (2009)
Spradley, J.P.: Participant observation. Holt, Rinehart, and Winston, New York, NY (1980)
Land, S.M., Zimmerman, H.T., Choi, G.W., Seely, B.J., Mohney, M.R.: Design of mobile learning for outdoor environments. In: Orey, M., Branch, R. (eds.) Educational media and technology year book, pp. 101–113. Springer, Heidelberg, Germany (2015)
Louv, R.: Last child in the woods: saving our children from nature-deficit disorder. Algonquin Books, Chapel Hill, NC (2008)
Acknowledgements
We would like to thank the children who participated in our study, Shaver’s Creek Environmental Center, and our funder Penn State’s Center for Online Innovation in Learning (COIL). We acknowledge the contributions of our team members (http://sites.psu.edu/augmentedlearning/) who participated in the current and prior iterations of Tree Investigators: Brian J. Seely, Michael R. Mohney, Jaclyn Dudek, Jessica Briskin, Chrystal Maggiore, Soo Hyeon Kim, Gi Woong Choi, Fariha H. Salman, and Lucy R. McClain.
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Zimmerman, H.T., Land, S.M., Jung, Y.J. (2016). Using Augmented Reality to Support Children’s Situational Interest and Science Learning During Context-Sensitive Informal Mobile Learning. In: Peña-Ayala, A. (eds) Mobile, Ubiquitous, and Pervasive Learning. Advances in Intelligent Systems and Computing, vol 406. Springer, Cham. https://doi.org/10.1007/978-3-319-26518-6_4
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