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2019 | OriginalPaper | Chapter

Board Games for Training Computational Thinking

Authors : Katerina Tsarava, Korbinian Moeller, Manuel Ninaus

Published in: Games and Learning Alliance

Publisher: Springer International Publishing

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Abstract

Computational thinking (CT) is a term widely used to describe algorithmic thinking and logic reasoning concepts and processes often related to computer programming. As such, CT as a cognitive ability builds on concepts and processes that derive from computer programming, but are applicable to wider real-life problems and STEM domains. CT has recently been argued to be a fundamental skill for 21^st century education and an early academic success indicator that should be introduced and trained already in primary school education. Accordingly, we developed three life-size board games – Crabs & Turtles: A Series of Computational Adventures – that aim at providing an unplugged, gamified and low-threshold introduction to CT by presenting basic coding concepts and computational thinking processes to 8 to 9-year-old primary school children. For the design and development of these educational board games we followed a rapid prototyping approach. In the current study, we report results of an empirical evaluation of game experience of our educational board games with students of the target age group. In particular, we conducted quantitative analyses of player experience of primary school student participants. Results indicate overall positive game experience for all three board games. Future studies are planned to further evaluate learning outcomes in educational interventions with children.

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Wing, J.M.: Computational Thinking. Theor. Comput. Sci. 49(3), 33 (2006)

Wing, J.M.: Computational Thinking: What and Why? The Link - The Magazine of the Carnegie Mellon University School of Computer Science (2010)

Wang, P.S.: From Computing to Computational Thinking, 1st edn. Chapman and Hall/CRC, New York (2015)

Brennan, Κ., Resnick, Μ.: New frameworks for studying and assessing the development of computational thinking. In: Annual American Educational Research Association Meeting, Vancouver, BC, Canada (2012)

Astrachan, O., Briggs, Α.: The CS principles principles project. ACM Inroads 3(2), 38 (2012)CrossRef

Haddad, R.J., Kalaani, Y.: Can computational thinking predict academic performance? In: Integrated STEM Education Conference Proceedings. IEEE (2015)

Yadav, A., Mayfield, C., Zhou, N., Hambrusch, S., Korb, J.T.: Computational thinking in elementary and secondary teacher education. ACM Trans. Comput. Educ. 14(1), 5 (2014)CrossRef

Tuomi, P., Multisilta, J., Saarikoski, P., Suominen, J.: Coding skills as a success factor for a society. Educ. Inf. Technol. 23(1), 419 (2018)CrossRef

Brown, N.C.C., Sentance, S.U.E., Crick, T.O.M., Humphreys, S.: Restart: the resurgence of computer science in UK schools. ACM Trans. Comput. Educ. 14(2), 9 (2014)CrossRef

10.

European School Network Homepage: https://www.esnetwork.eu/. Accessed 6 May 2018

11.

European Coding Initiative Homepage: http://www.allyouneediscode.eu/. Accessed 6 May 2018

12.

Code.org Homepage: https://code.org. Accessed 6 May 2018

13.

National Science Foundation Homepage: https://www.nsf.gov/. Accessed 6 May 2018

14.

Tsarava, K., Moeller, K., Pinkwart, N., Butz, M., Trautwein, U., Ninaus, M.: Training computational thinking: game-based unplugged and plugged-in activities in primary school. In: 11th European Conference on Games Based Learning Proceedings, ECGBL, ACPI, UK (2017)

15.

Barsalou, L.W.: Grounded cognition. Ann. Rev. Psychol. 59, 617 (2008)CrossRef

16.

Tsarava, K., Moeller, K., Ninaus, M.: Training computational thinking through boar games: the case of crabs & turtles. Int. J. Serious Games 5(2), 25–44 (2018)CrossRef

17.

Papert, S.: Logo Philosophy and Implementation (1999)

18.

Papert, S., Solomon, C.: Twenty Things To Do With a Computer (1971)

19.

Echeverría, A., et al.: A framework for the design and integration of collaborative classroom games. Comput. Educ. 57(1), 1127 (2011)CrossRef

20.

Grover, S., Pea, R.: Computational thinking in K-12: a review of the state of the field. Educ. Res. 42(1), 38 (2013)CrossRef

21.

Pea, R.D., Kurland, D.M.: On the cognitive effects of learning computer programming. New Ideas Psychol. 2(2), 137 (1984)CrossRef

22.

Fullerton, T.: Game Design Workshop: A Playcentric Approach to Creating Innovative Games. CRC Press, Boca Raton (2008)CrossRef

23.

Tsarava, K.: Programming in Greek with Python. Aristotle University of Thessaloniki (2016)

24.

Poels, K., de Kort, Y.A.M., Ijsselsteijn, W.A.: D3.3: game experience questionnaire: development of a self-report measure to assess the psychological impact of digital games. Technische Universiteit Eindhoven, Eindhoven (2007)

Title: Board Games for Training Computational Thinking
Authors: Katerina Tsarava
Korbinian Moeller
Manuel Ninaus
Publisher: Springer International Publishing
Book: Games and Learning Alliance
Print ISBN: 978-3-030-11547-0

Electronic ISBN: 978-3-030-11548-7

Copyright Year: 2019
DOI: https://doi.org/10.1007/978-3-030-11548-7_9

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