Abstract
Our study proposes an approach based on learning through interaction with robots. We investigated how this approach can contribute to the development of systems thinking skills in elementary school students. 346 students of 2nd to 4th grades participated in the workshop “Animal-like robots” conducted at MadaTech. The workshop activities focused on inquiry and design of robot behaviors. We evaluated students’ performance of the workshop tasks and found indications of significant progress in the systems thinking skills.
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References
Hipkins, R., Bull, A., Joyce, C.: The interplay of context and concepts in primary school children’s systems thinking. In: Hammann, M., Reiss, M., Boulter, C., Tunnicliffe, S.D. (eds.) Biology in Context. Institute of Education, University of London, Learning and teaching for the twenty-first century (2008)
National Standards: STEM Standards, (March 2015) http://www.clexchange.org/curriculum/standards/stem.asp
Rusk, N., Resnick, M., Berg, R., Pezalla-Granlund, M.: New pathways into robotics: Strategies for broadening participation. J. Sci. Educ. Technol. 17(1), 59–69 (2008)
Verner, I., Polishuk, A., Klein, Y., Cuperman, D., Mir, R., Wertheim, I.: Robotics education through a learning excellence program in a science museum. Int. J. Eng. Educ. 28(3), 523–533 (2012)
Shibata, T., Wada, K., Tanie, K.: Subjective evaluation of seal robot at the national museum of science and technology in Stockholm. In: Proceedings of the IEEE International Workshop on Robot and Human Interactive Communication, Millbrae, California, pp. 397–402 (2003)
Hashimoto, T., Kobayashi, H., Polishuk, A., Verner, I.: Elementary science lesson delivered by robot. HRI 133–134 (2013)
Horn, M.S., Solovey, E.T., Jacob, R.J.K.: Tangible programming for informal science learning: Making TUIs work for Museums. Proceedings of 7th International Conference on Interaction Design and Children IDC, pp. 194–201. ACM, NY (2008)
Nourbakhsh, I., Hamner, E., Ayoob, E., Porter, E., Dunlavey, B., Bernstein, D., Crowley, K., Lotter, M., Shelly, S., Hsiuand, T., Clancey, D.: The personal exploration rover: educational assessment of a robotic exhibit for informal learning venues. Int. J. Eng. Educ. 22(4), 777–791 (2006)
Riess, W., Mischo, C.: Promoting systems thinking through biology lessons. Int. J. Sci. Educ. 32(6), 705–725 (2010)
Richmond, B.: Systems thinking: critical thinking skills for the 1990s and beyond. Syst. Dyn. Rev. 9(2), 113–133 (1993)
Thomas, D.R.: A general inductive approach for analyzing qualitative evaluation data. Am. J. Eval. 27, 237–246 (2006)
Acknowledgments
The study was supported by the Technion Center for Robotics and Digital Technology Education and by the MadaTech Gelfand Center for Model Building, Robotics and Communication.
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Polishuk, A., Verner, I. (2017). Student-Robot Interactions in Museum Workshops: Learning Activities and Outcomes. In: Merdan, M., Lepuschitz, W., Koppensteiner, G., Balogh, R. (eds) Robotics in Education. Advances in Intelligent Systems and Computing, vol 457. Springer, Cham. https://doi.org/10.1007/978-3-319-42975-5_21
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DOI: https://doi.org/10.1007/978-3-319-42975-5_21
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