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AUTHOR(S):

Miltiadis Anastasiadis, George Tsatsanifos, Frixos Terzakis, Nikolaos V. Karadimas, Sofoklis Sotiriou, Angelos Lazoudis, Jens Koslowsky, Serafeim Spanos, Theofanis Alexandridis, Nikos Papastamatiou, Alexandros Papadopoulos, Andreas Diktyopoulos

 

TITLE

A Storytelling Platform for Deeper Learning in STEM Combined with Art-Related Activities

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ABSTRACT

The STORIES storytelling platform provides the means and the tools along with the necessary collaborative and personalization functionalities to introduce students and monitor their performance in extended episodes of deeper learning in Science, Technology, Engineering, and Mathematics (STEM) combined with art-related activities (visual and performing arts, music, movie making, 3D design). The platform introduces students in a progressive exploration of the different technologies that can be accommodated from the system, from simple text and video uploading to advanced augmentations of students’ artifacts.

KEYWORDS

Storytelling, Collaborative, STEAM, STEM, Authoring, Virtual Reality, Augmented Reality, Problem Solving, Deeper Learning

REFERENCES

[1] Chappell, K., Craft, A., Rolfe, L., Jobbins, V. (2012). Humanising Creativity: valuing our journeys of becoming. International Journal of Education and the Arts. 13:8 1-35. Available from http://www.ijea.org/v13n8/

[Retrieved 10th April 2016]

[2] Jenkins, H., Purushotma, R., Clinton, K., Weigel, M., and Robison, A. (2006). “Confronting the challenges of participatory culture: Media education for the 21st century,” Project New Media Literacies.

[3] Niemi, H. & Mustisilta, J. (2015). Digital Storytelling promoting twenty-first century skills and student engagement. Technology, Pedagogy and Education.

[4] Thesen, A., & Kara-Soteriou, J. (2011). Using digital storytelling to unlock student potential. New England Reading Association Journal, 46(2), pp. 93-100.

[5] Skantz Åberg, E., Lantz-Andersson, A., & Pramling, N. (2014): 'Once upon a time there was a mouse': children’s technology-mediated storytelling in preschool class. Early Child Development and Car, vol. 184, issue 4, pp. 1583-1598

[6] Sadik, A. (2008). Digital Storytelling: A Meaningful technology-integrated approach for engaged student learning. EducationTech Research, 56, pp. 487-506.

[7] Sukovic, S. (2014). iTell: Transliteracy and Digital Storytelling. Australian Academic & Research Libraries, 45(No.3), pp. 205-229

[8] Papadopoulou & Vlachos, K. (2014). Using digital storytelling to develop foundational and new literacies. Research Papers in Language, Teaching and Learning, 5(1), pp. 235-258

[9] Green, L.S. (2013). Language learning through a lens: The case for digital storytelling in the second language classroom. School Libraries Worldwide, 19(2), pp. 23-36

[10] Barrett, H. (2006). Researching and evaluating digital storytelling as a deep learning tool. In C. Crawford, et al. (Eds.), Proceedings of Society for Information Technology and Teacher Education International Conference 2006 (pp. 647–654). Chesapeake, VA: AACE.

[11] Sadik, A. (2008). Digital Storytelling: A Meaningful technology-integrated approach for engaged student learning. EducationTech Research, 56, 487-506(p. 490).

[12] Barron, B. and L. Darling-Hammond (2010), "Prospects and challenges for inquiry-based approaches to learning", in Dumont, H., D. Istance and F. Benavides (eds.), The Nature of Learning: Using Research to Inspire Practice, OECD Publishing, Paris, https://doi.org/10.1787/9789264086487-11-en

[13] Thompson Long, B., Hall, T., Hogan, M., and Papastamatiou, N. (2017) Enhancing children's literacy skills: designing the Q-Tales ecosystem for children's e-book design and publication. Literacy, doi: 10.1111/lit.12128

[14] Lounis, Stavros; Doukidis, Stefanos; Papastamatiou, Nikolaos; and Doukoulos, Theodoros, "Gamification of Authoring Interactive EBooks for Children: The Q-Tales Ecosystem" (2016). MCIS 2016 Proceedings. Paper 31. http://aisel.aisnet.org/mcis2016/31

[15] S. Matsutomo, T. Miyauchi, S. Noguchi, H. Yamashita (2012) “Real-Time Visualization System of Magnetic Field Utilizing Augmented Reality Technology for Education.” Ieee transactions on magnetics, Vol. 48 no. 2.

[16] Artetxe González, E., Souvestre F., López Benito J.R. (2015) Augmented Reality Interface for E2LP: Assistance in Electronic Laboratories Through Augmented Reality. Advances in Intelligent Systems and Computing, Springer, Volume 421 (pp. 93-108).

[17] Thomas R. G., John N. W., Delieu J. M (2010) Augmented Reality for Anatomical Education. Journal of Visual Communication in Medicine Vol. 33 , Issue 1.

[18] Vuforia https://www.vuforia.com/

[19] Vuforia Features https://developer.vuforia.com/ downloads/samples

[20] https://headjack.io/blog/best-3d-model-file-format-ar-applications/

[21] glTF Overview: https://www.khronos.org/gltf/

[22] https://sketchfab.com

[23] https://www.turbosquid.com/

Cite this paper

Miltiadis Anastasiadis, George Tsatsanifos, Frixos Terzakis, Nikolaos V. Karadimas, Sofoklis Sotiriou, Angelos Lazoudis, Jens Koslowsky, Serafeim Spanos, Theofanis Alexandridis, Nikos Papastamatiou, Alexandros Papadopoulos, Andreas Diktyopoulos et. al.. (2018) A Storytelling Platform for Deeper Learning in STEM Combined with Art-Related Activities. International Journal of Education and Learning Systems, 3, 84-92

 

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