Reinforcement of in fractions and division arithmetic skills in primary school children through a serious educational game
DOI:
https://doi.org/10.26439/interfases2022.n016.6031Abstract
While mathematics may be easy for some students, for others it can be a real torture. Through mathematics we can organize ourselves better and have much more logic and reasoning, as it is also the base knowledge for many professions. However, many people find it difficult and do not feel motivated to learn or reinforce it, mainly due to the traditional methodology, the difficulty of mathematics or the quality of education. On the other hand, technology and games can promote learning, becoming the best ally to enhance education. Moreover, in order to engage students in higher-order thinking, it is important to design game contexts and missions that allow them to deal with practical problems. For this reason, this article aims to support the process of reinforcement of learning fractions and divisions through an educational serious game available for web and mobile platforms, which incorporates continuous mechanics and the inclusion of reinforcement exercises of fractions and divisions. For the design of the game and interfaces, the heuristics proposed by Nielsen (1994), were applied and for the mechanics, the MDA framework was applied, which influenced the design of the levels together with the recommendations of a focus group. Subsequently, we will proceed to validate whether there were changes in the students’ performance by comparing groups, validate the usability in order to verify that the heuristics are correctly applied and, finally, measure the experience of the game in a small group of schoolchildren from 3rd grade onwards.
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References
Aljojo, N. (2018). The design and implementation of a mathematics game-base learning application for primary students. International Journal of Interactive Mobile Technologies, 12(3), 142-152. https://doi.org/10.3991/ijim.v12i3.8739
Alkhateeb, M. A. (2019). Effect of mobile gaming on mathematical achievement among 4th graders. International Journal of Emerging Technologies in Learning, 14(7), 4-7. https://doi.org/10.3991/ijet.v14i07.10315
Aparício, A., & Silva, F. (2019). Arithmetic Bird: a game for training mathematical operations. EAI Endorsed Transactions on Game-Based Learning, 5(17), 1-9. https://doi.org/10.4108/eai.11-7-2019.159526
Bailey, D. H., Hoard, M. K., Nugent, L., & Geary, D. C. (2012). Competence with fractions predicts gains in mathematics achievement. Journal of Experimental Child Psychology, 113(3), 447-455. https://doi.org/10.1016/j.jecp.2012.06.004
Benbow, C. P., & Faulkner, L. R. (2008). Rejoinder to the critiques of the national mathematics advisory panel final report. Educational Researcher, 37(9), 645-648. https://doi.org/10.3102/0013189x08329195
Bicen, H., & Kocakoyun, S. (2018). Perceptions of students for gamification approach: Kahoot as a case study. International Journal of Emerging Technologies in Learning, 13(2), 72-93. https://doi.org/10.3991/ijet.v13i02.7467
Carrol, J. (2013, 3 de septiembre). Applying the MDA game design framework to software. Atomic Spin. https://spin.atomicobject.com/2013/09/03/mda-game-design-framework/
El Azizi, L. (2019). Design and development of a serious mobile game “MathAventure”. International Journal of Advanced Research in Computer and Communication Engineering, 8(9), 16-21. https://doi.org/10.17148/ijarcce.2019.8903
Nah, F. F.-H., Zeng, Q., Telaprolu, V. R., Ayyappa, A. P., & Eschenbrenner, B. (2014). Gamification of education: A review of literature. En F. F.-H. Nah (Ed.), HCI in Business. HCIB 2014. Lecture notes in computer science (vol. 8527, pp. 401-409). Springer.
Gaggi, O., Ciraulo, F., & Casagrande, M. (2018). Eating pizza to learn fractions. En ACM International Conference Proceeding Series (pp. 220-225). https://doi.org/10.1145/3284869.3284921
Hunicke, R., Leblanc, M., & Zubek, R. (2004). MDA: A formal approach to game design and game research.
Ibarra, M. J., Jiménez, W., Soto, C., Chavez, E., Chicclla, E., Sprock, A. S., & Brandao, L. O. (2019). Game based learning for math learning: iFractions case study. En Proceedings - 2019 International Conference on Virtual Reality and Visualization (ICVRV) (pp. 208-211). https://doi.org/10.1109/ICVRV47840.2019.00050
Ibarra, M. J., Soto, W., Ataucusi, P., & Ataucusi, E. (2016). MathFraction: Educational serious game for students motivation for math learning. En Proceedings - 2016 11th Latin American Conference on Learning Objects and Technology (LACLO) (pp. 1-9). https://doi.org/10.1109/LACLO.2016.7751777
Jsselsteijn, W. A., De Kort, Y. A. W., & Poels, K. (2008). The Game Experience Questionnaire. Technische Universiteit Eindhoven.
Johnson, D., Gardner, M. J., & Perry, R. (2018). Validation of two game experience scales: The Player Experience of Need Satisfaction (PENS) and Game Experience Questionnaire (GEQ). International Journal of Human Computer Studies, 118, 38-46. https://doi.org/10.1016/j.ijhcs.2018.05.003
Kebritchi, M., Hirumi, A., & Bai, H. (2010). The effects of modern mathematics computer games on mathematics achievement and class motivation. Computers & Education, 55(2), 427-443. https://doi.org/10.1016/j.compedu.2010.02.007
Kickmeier-Rust, M. D., Hillemann, E. C., & Albert, D. (2014). Gamification and smart feedback: Experiences with a primary school level math app. International Journal of Game-Based Learning, 4(3), 35-46. https://doi.org/10.4018/ijgbl.2014070104
Lankoski, P., Björk, S., & Stirling, W. C. (2003). Game research methods. En Satisficing games and decision making: With applications to engineering and computer science (p. 9). ETC Press.
Ministerio de Educación del Perú. (2018). Perú: ¿cómo vamos en educación? Estadística de la Calidad Educativa. http://repositorio.minedu.gob.pe/handle/MINEDU/6104
Mishra, L. (2020). Conception and misconception in teaching arithmetic at primary level. Journal of Critical Reviews, 7(5), 936-939. https://doi.org/10.31838/jcr.07.05.192
Mora-Zamora, R., & Brenes-Villalobos, E. (2019). Integrated framework for game design. En Proceedings of the IX Latin American Conference on Human Computer Interaction (CLIHC ‘19) (Article 23, pp. 1-6). https://doi.org/10.1145/3358961.3358984
Muñoz Sanabria, L. F., & Vargas Ordoñez, L. M. (2019). EDUMAT: herramienta web gamificada para la enseñanza de operaciones elementales. Campus Virtuales, 8(2), 9-17.
Murtiyasa, B., Jannah, I. M., & Rejeki, S. (2020). Designing mathematics learning media based on mobile learning for ten graders of vocational high school. Universal Journal of Educational Research, 8(11), 5637-5647. https://doi.org/10.13189/ujer.2020.081168
Naiser, E. A., Wright, W. E., & Capraro, R. M. (2003). Teaching fractions: Strategies used for teaching fractions to middle grades students. Journal of Research in Childhood Education, 18(3), 193-198. https://doi.org/10.1080/02568540409595034
Nielsen, J. (1994, 24 de abril). 10 usability heuristics for user interface design. Nielsen Norman Group. https://www.nngroup.com/articles/ten-usability-heuristics/
Ninaus, M., Kiili, K., McMullen, J., & Moeller, K. (2017). Assessing fraction knowledge by a digital game. Computers in Human Behavior, 70, 197-206. https://doi.org/10.1016/j.chb.2017.01.004
Obersteiner, A., Van Dooren, W., Van Hoof, J., & Verschaffel, L. (2013). The natural number bias and magnitude representation in fraction comparison by expert mathematicians. Learning and Instruction, 28, 64-72. https://doi.org/10.1016/j.learninstruc.2013.05.003
Olsen, T., Procci, K., & Bowers, C. (2011). Serious games usability testing: How to ensure proper usability, playability, and effectiveness. En A. Marcus (Ed.), Design, user experience, and usability. Theory, methods, tools and practice. DUXU 2011. lecture notes in computer science (vol. 6770, pp. 625-634). https://doi.org/10.1007/978-3-642-21708-1_70
Procci, K., Chao, A., Bohnsack, J., Olsen, T., & Bowers, C. (2012). Usability in serious games: A model for small development teams. Computer Technology and Application, 3(2012), 315-329.
Robertson, J., & Howells, C. (2008). Computer game design: Opportunities for successful learning. Computers & Education, 50(2), 559-578. https://doi.org/10.1016/j.compedu.2007.09.020
Sauro, J., & Lewis, J. R. (2016). Standardized usability questionnaires. En Quantifying the user experience (2.a
ed., pp. 185-248). Elsevier. https://doi.org/10.1016/b978-0-12-802308-2.00008-4
Schenke, K., Rutherford, T., & Farkas, G. (2014). Alignment of game design features and state mathematics standards: Do results reflect intentions? Computers & Education, 76, 215-224. https://doi.org/10.1016/j.compedu.2014.03.019
Shang, J., Zhang, L., Hu, R. N., Ma, S. J., Zen, J. L., Yuan, M. Z., & Sun, J. G. (2018). How to support fraction learning with math game “Run Fraction”: Theory, design and application. En Proceedings of International Conference on Computers in Education (Extended Summary Proceedings) (pp. 20-22). The Ateneo de Manila University.
Spieler, B., & Girvan, C. (2020). Das PECC-Framework: Gender-Sensibilität und spielerische Programmierung in der informatischen Grundbildung. En R. Zender, D. Ifenthaler, T. Leonhardt & C. Schumacher (Eds.), DELFI 2020 – Die 18. Fachtagung Bildungstechnologien der Gesellschaft für Informatik e. V. (pp. 247-258). Gesellschaft für Informatik e. V.
Spieler, B., & Kemeny, F. (2020). Design, complexity, and coding: A framework to evaluate games. En Proceedings of the 14th International Conference on Game Based Learning (ECGBL) (pp. 558-566). https://doi.org/10.34190/GBL.20.156
UX Research. (2017). Measuring and interpreting System Usability Scale (SUS) - UIUX Trend. UIUXTrend. https://uiuxtrend.com/measuring-system-usability-scale-sus/
Vandercruysse, S., Maertens, M., & Elen, J. (2015). Description of the educational math game “Monkey Tales: The Museum of Anything”. En J. Torbeyns, E. Lehtinen & J. Elen (Eds.), Describing and studying domain-specific serious games (pp. 24-43). https://doi.org/10.1007/978-3-319-20276-1
Wang, S. Y., Chang, S. C., Hwang, G. J., & Chen, P. Y. (2017). A microworld-based role-playing game development approach to engaging students in interactive, enjoyable, and effective mathematics learning. Interactive Learning Environments, 26(3), 411-423. https://doi.org/10.1080/10494820.2017.1337038
Zhang, L., Shang, J., Pelton, T., & Pelton, L. F. (2020). Supporting primary students’ learning of fraction conceptual knowledge through digital games. Journal of Computer Assisted Learning, 36(4), 540-548. https://doi.org/10.1111/jcal.12422
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