Abstract
This paper advocates for place-based education to guide research and design for mobile computers used in outdoor informal environments (e.g., backyards, nature centers and parks). By bringing together research on place-based education with research on location awareness, we developed three design guidelines to support learners to develop robust science-related understandings within local communities. The three empirically- derived design guidelines are: (1) Facilitate participation in disciplinary conversations and practices within personally-relevant places, (2) Amplifying observations to see the disciplinary-relevant aspects of a place, and (3) Extending experiences through exploring new perspectives, representations, conversations, or knowledge artifacts. Last, we link theory to practice by illustrating how the three guidelines were applied in one outdoor science learning project called Tree Investigators.
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References
Bell, P., Lewenstein, B., Shouse, A. W., & Feder, M. A. (Eds) 2009. Learning science in informal environments: People, places, and pursuits. Washington, D.C.: National Academies Press. Retrieved from http://www.nap.edu/catalog/12190.html
Bell, P. (2000). Scientific arguments as learning artifacts: Designing for learning from the web with KIE. International Journal of Science Education, 22(8), 797–817.
Brown, E. (Ed.) (2010) Education in the wild: contextual and location-based mobile learning in action. Retrieved from http://oro.open.ac.uk/29885/.
Brown, A.L., Bransford, J.D., Ferrara, R.A., & Campione, J.C. (1983). Learning, remembering, and understanding. In J. H. Flavell & E. H. Markman (Eds.) Handbook of Child Psychology, Vol. 3, Cognitive Development (pp. 177–266). New York: Wiley.
Dunleavy, M., Dede, C., & Mitchell, R. (2009). Affordances and limitations of immersive participatory augmented reality simulations for teaching and learning. Journal of Science Education and Technology, 18(1), 7–22.
Dunleavy, M., & Dede, C. (2014). Augmented reality teaching and learning. In J.M. Spector et al. (eds.), Handbook of Research on Educational Communications and Technology (pp. 735–745). Springer: New York. doi: 10.1007/978-1-4614-3185-5_59.
Eberbach, C., & Crowley, K. (2008). From everyday to scientific observation: How children learn to observe the biologist’s world. Review of Educational Research, 79(1), 39–68. doi: 10.3102/0034654308325899.
Edelson, D. C. (2001). Learning-for-use: A framework for the design of technology-supported inquiry activities. Journal of Research in Science Teaching, 38(3), 355–385.
Gruenewald, D. A. (2003). The Best of Both Worlds: A Critical Pedagogy of Place. Educational Researcher, 32(4), 3–12. doi:10.3102/0013189X032004003
Hsi, S. (2003). A study of user experiences mediated by nomadic web content in a museum. Journal of Computer Assisted Learning, 19(3), 308–319.
Huang, Y-M., Lin, Y-T, & Cheng, S-C. (2010). Effectiveness of a mobile plant learning system in a science curriculum in a Taiwanese classroom. Computers & Education, 54, 47–58.
Kafai, Y. (2006). Constructionism. In K. Sawyer (Ed.), The Cambridge Handbook of the Learning Sciences (pp. 3546). Cambridge, MA: Cambridge University Press.
Kafai, Y. B. & Gilliland-Sw etland, A. (2001). The use of historical materials in elementary science education. Science Education, 85, 349–367.
Klopfer, E., & Squire, K. (2008). Environmental Detectives— the development of an augmented reality platform for environmental simulations. Educational Technology Research and Development, 56(2), 203–228.
Land, S. M., Smith, B. K., & Zimmerman, H. T (2013). Mobile technologies as tools for augmenting observations and reflections in everyday informal environments. In (eds.) J. M. Spector, B.B. Lockee, S.E. Smaldino, & M. Herring. Learning, problem solving and mind tools: Essays in honor of David H. Jonassen. (pp. 214–228). New York: Routledge.
Lim, M., & Calabrese Barton, A. (2005). Science learning and a sense of place in a urban middle school. Cultural Studies of Science Education, 1(1), 107–142. doi: 10.1007/ s11422-005-9002-9
Linn, M. C., & Slotta, J. D. (2000). WISE science. Educational Leadership,58(2), 29–32.
Linn, M. (2006). The Knowledge Integration perspective on learning and instruction. In R. K. Sawyer (Ed.), The Cambridge handbook of the learning sciences (pp. 243264). Cambridge, UK: Cambridge University Press.
Liu, T.-C., Peng, H., Wu, W.-H.,& Lin, M.-S. (2009). The Effects of Mobile Natural-science Learning Based on the 5E Learning Cycle: A Case Study. Educational Technology & Society, 12 (4), 344–358.
Pea, R. (2004). The social and technological dimensions of scaffolding and related theoretical concepts for learning, education, and human learning. The Journal of the Learning Sciences, 13(3), 423–451.
Priestnall, G., Brown, E., Sharples, M., & Polmear, G. 2009. Augmenting the field experience: A student-led comparison of techniques and technologies. In E. Brown (Ed.),Education in the wild: contextual and location- based mobile learning in action . Retrieved from http://oro.open.ac.uk/29885/
Quintana, C., Reiser, B., Davis, E., Krajcik, J., Fretz, E., Duncan, R., Kyza, E., Edelson, D., & Soloway, E. (2004). A scaffolding design framework for software to support science inquiry. Journal of the Learning Sciences, 13(3), 337–386.
Rieger, R., & Gay, G. (1997). Using nomadic computing to enhance field study. In R. Hall, N. Miyake, & N. Enyedy (Eds.), Proceedings of CSCL 1997: The Second International Conference on Computer Support for Collaborative Learning (p. 215–223). Erlbaum: Mahwah, NJ
Rogers, Y., Price, S., Randell, C., Fraser, D. S., Weal, M., & Fitzpatrick, G. (2005). Ubi-learning integrates indoor and outdoor experiences. Communications of the ACM, 48(1), 55–59.
Rosenbaum, E., Klopfer, E., & Perry, J. (2006). On location learning: Authentic applied science with networked augmented realities. Journal of Science Education and Technology, 16(1), 31–45. doi:10.1007/s10956-006-9036-0
Scardamalia, M., & Bereiter, C. (1994). Computer support for knowledge-building communities. The journal of the learning sciences, 3(3), 265–283.
Semken, S. (2005). Sense of place and place-based introductory geoscience teaching for American Indian and Alaska Native undergraduates. Journal of Geoscience Education53, 53(2), 149–157.
Sharples, M. (2010). Forward to Education in the wild. In E. Brown (Ed.), Education in the wild: contextual and location-based mobile learning in action. Retrieved from http://oro.open.ac.uk/29885/
Smith, G. (2002). Place-based education: Learning to be where we are. Phi Delta Kappan 83, 584–594.
Smith, B.K. & Reiser, B.J. (2005). Explaining behavior through observational investigation and theory articulation. Journal of the Learning Sciences. 14(3), 315–360.
Smith, B., & Blankinship, E. (2000). Justifying imagery: multimedia support for learning through explanation. IBM Systems Journal, 39(3).
Sobel, D. (2004). Place-based education: Connecting classrooms & communities. Orion Society. Nature Literacy Series, No.
Squire, K. D., & Jan, M. (2007). Mad City Mystery: Developing scientific argumentation skills with a place- based augmented reality game on handheld computers. Journal of Science Education and Technology, 16(1), 5–29. doi:10.1007/sl0956-006-9037-z
Stevens, R., & Martell, S. T. (2003). Leaving a trace: Supporting museum visitor interaction and interpretation with digital media annotation systems. Journal of Museum Education, 28(2), 25–30.
Tan, T.-H., Liu, T.-Y., & Chang, C.-C. (2007). Development and Evaluation of an RFID-based Ubiquitous Learning Environment for Outdoor Learning. Interactive Learning Environments, 15(3), 253–269. doi:10.1080/10494820701281431
Yoon, S. A., Elinich, K., Wang, J., Steinmeier, C., & Tucker, S. (2012). Using augmented reality and knowledge- building scaffolds to improve learning in a science museum. International Journal of Computer-Supported Collaborative Learning. doi:10.1007/s11412-012-9156-x
Zimmerman, H. T., Land, S. M., McClain, L.R., Mohney, M. R., Choi, G-W., & Salman, F. H. (In press). Tree Investigators: Supporting Families and Youth to Coordinate Observations with Scientific Knowledge. International Journal of Science Education. doi: 10.1080/21548455.2013.832437
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Zimmerman, H.T., Land, S.M. Facilitating Place-Based Learning in Outdoor Informal Environments with Mobile Computers. TECHTRENDS TECH TRENDS 58, 77–83 (2014). https://doi.org/10.1007/s11528-013-0724-3
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DOI: https://doi.org/10.1007/s11528-013-0724-3