The digital short stories engineering (D2SE) framework in creating stories on computational thinking theme for children aged 3-4 years
DOI:
https://doi.org/10.37134/jictie.vol9.1.13.2022Keywords:
Digital Short Stories Engineering (D2SE) framework, story structure design, computational thinking, young childrenAbstract
This paper presents a framework that can be used to guide digital short stories development that focuses on computational thinking theme suitable for young children, aged between 3-4 years old. Stories can be used to convey information and send messages to their listeners, or readers. Digital short stories are very commonly used for children’s learning. However, to effectively send the right messages, any stories including digital stories will require story engineering that helps produce a thoughtful story structure design. Meanwhile, computational thinking is considered as a valuable ability to reasoning and problem-solving. With consideration of nurturing computational thinking among the young listeners or readers, the structure design of a story can be engineered to fulfil the objective, and later it can be reused to create new and different stories with similar objectives. Thus, in this study, the Digital Short Stories Engineering (D2SE) framework was derived, and a checklist to support the framework was developed and tested using expert review. Only four experts were involved to validate the items which must be deemed suitable for young children, from several perspectives including linguistic, content and storyline, visualization, and computational thinking aspects. Several examples of digital stories that were derived based on the framework were sent to another three experts who evaluated the stories using the checklist. The results showed that all of the aspects in the framework have been successfully implemented. In conclusion, the framework can be used not only to guide story creators in creating suitable stories for young children in general but also can be used to assist people in engineering stories that can expose children to computational thinking at young ages. In addition, the framework may also be used by nursery teachers or parents when choosing suitable reading materials for their children.
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References
Anida, S. (2020). Ulasan buku: “Engkaulah adiwiraku: bagaimana kanak-kanak boleh melawan Covid-19”, Jurnal Pendidikan Awal Kanak-kanak Kebangsaan, 9(1), 48-57. https://doi.org/10.37134/jpak.vol9.1.5.2020
Ayop, N.W. (2012). Pembangunan Aplikasi Buku Cerita Interaktif Bercirikan Islam Untuk Platform iOS (iKids Stories). Master’s thesis. Universiti Teknologi Malaysia.
Baroutsis, A., White, S. L., Ferdinands, E., Goldsmith, W., & Lambert, E. (2019). Computational thinking as a foundation for coding: Developing student engagement and learning. Australian Primary Mathematics Classroom, 24(2), 10-15. https://search.informit.org/doi/10.3316/informit.523946223625912
Bers, M. U. (2010). The TangibleK Robotics program: Applied computational thinking for young children. Early Childhood Research & Practice, 12(2), 1-20.
Ergül, A. (2018). Maybe, maybe not: Probabilistic reasoning in preschool period. Erken Çocukluk Çalışmaları Dergisi, 2(1), 68-85. https://doi.org/10.24130/eccd-jecs.196720182149
Griffith, N. (2007). Stories can be counted on: Ideas for developing mathematics through story. UK: Red Robin Books
Hsu, T. C., Chang, S. C., & Hung, Y. T. (2018). How to learn and how to teach computational thinking: Suggestions based on a review of the literature. Computers & Education, 126, 296-310. https://doi.org/10.1016/j.compedu.2018.07.004
Jalongo, M. R. (2014). Early childhood language arts. Boston: Pearson.
Kerry-Moran, K., Aerila, J. (2019). Introduction: The strength of stories. In Kerry-Moran, K, Aerila, J (eds) Story in Children's Lives: Contributions of the Narrative Mode to Early Childhood Development, Literacy, and Learning. Switzerland: Springer, pp.1–8.
Kucirkova, N., Littleton, K. & Cremin, T. (2016) Young children’s reading for pleasure with digital books: six key facets of engagement, Cambridge Journal of Education, 47, 67-84. https://doi.org/10.1080/0305764X.2015.1118441
Lemonidis, C., & Kaiafa, I. (2019). The effect of using storytelling strategy on students’ performance in fractions. Journal of Education and Learning, 8(2), pp 165-175. https://doi.org/10.5539/jel.v8n2p165
Madigan, S., Browne, D., Racine, N., Mori, C., & Tough, S. (2019). Association between screen time and children's performance on a developmental screening test. JAMA Paediatrics, 173(3), 244–250. https://doi.org/10.1001/jamapediatrics.2018.5056
Machado, J. M. (2016). Early childhood experiences in language arts: Early literacy. Boston, MA: Cengage Learning.
MathsThroughStories.org. (2017). 'How to' books, University of Reading's Institute of Education (UK). Retrieved from https://www.mathsthroughstories.org/how-to-books.html
McGrath, C. (2014). Teaching Mathematics Through Story: A Creative Approach for The Early Years. Oxon: Routledge
Rose, S., Habgood, J., & Jay, T. (2017). An exploration of the role of visual programming tools in the development of young children’s computational thinking. Electronic Journal of E-learning, 15(4), 297-309.
Roskos, K., Brueck, J., & Widman, S. (2009). Investigating analytic tools for e-book design in early literacy learning. Journal of Interactive Online Learning, 8(3), 218-240.
Shute, V. J., Sun, C., & Asbell-Clarke, J. (2017). Demystifying computational thinking. Educational Research Review, 22, 142-158. https://doi.org/10.1016/j.edurev.2017.09.003
Zainiah, M.I. (2013). Kesan pembacaan buku cerita bertahap terhadap kemahiran pemunculan literasi kanak-kanak prasekolah. Tesis doktor falsafah yang tidak diterbitkan, Universiti Pendidikan sultan Idris, Tanjong Malim, Perak.
Zainudin, N., & Ismail, A. (2020). Designing Storylines for Children’s Mathematics Digital Interactive Storybook using Software Engineering Approach. Journal of ICT in Education, 7(1), 43-51. https://doi.org/10.37134/jictie.vol7.1.5.2020