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2017 | Supplement | Chapter

Using Embodied Learning Technology to Advance Motor Performance of Children with Special Educational Needs and Motor Impairments

Authors : Panagiotis Kosmas, Andri Ioannou, Symeon Retalis

Published in: Data Driven Approaches in Digital Education

Publisher: Springer International Publishing

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Abstract

Embodied learning, under the lens of Embodied Cognition theory, emphasizes on the inseparable link between brain, body and the world; it considers that the active human body can alter the function of the brain and therefore the cognitive process. From this perspective, the exploration of learning environments that promote bodily activity in relation to cognitive tasks are gaining the attention of the research community in the recent days. One such case is the use of multimodal, motion-based games mediated by sensors like a Kinect camera to enable learning through active and embodied interaction with learning content. This paper presents findings from an empirical investigation of using embodied touchless interactive games to enhance motor performance for children with learning disabilities and motor impairments. Young children, mainly attending special units within mainstream elementary schools, participated in a five-month intervention. Kinetic analytics, together with teachers’ self-reported observations and interviews, revealed improvements in children’s motor performance, particularly psychomotor ability and psychomotor speed. The paper contributes to the technology-enhanced learning community by providing insights into the use of embodied learning technology in special education.

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previous chapter Examining Interaction Modality Effects Toward Engagement in an Interactive Learning Environment

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Wilson, M.: Six views of embodied cognition. Psychon. Bull. Rev. 9(4), 625–636 (2002)CrossRef

Price, S., Roussos, G., Falcão, T.P., Sheridan, J.G.: Technology and embodiment: relationships and implications for knowledge, creativity and communication. Beyond Curr. Horiz. 29, 1–22 (2009)

Foglia, L., Wilson, R.A.: Embodied cognition. Wiley Interdisc. Rev. Cogn. Sci. 4(3), 319–325 (2013)CrossRef

Antle, A.N.: Exploring how children use their hands to think: an embodied interactional analysis. Behav. Inf. Technol. 32(9), 938–954 (2013)CrossRef

Antle, A.N., Wise, A.F.: Getting down to details: Using theories of cognition and learning to inform tangible user interface design. Interact. Comput. 25(1), 1–20 (2013)CrossRef

Schneider, W.J., McGrew, K.S.: The Cattell-Horn-Carroll model of intelligence. Contemp. Intellect. Assess. Theor. Tests 3, 99–144 (2012)

Clark, A.: An embodied cognitive science? Trends Cogn. Sci. 3(9), 345–351 (1999)CrossRef

Abrahamson, D.: Building educational activities for understanding: an elaboration on the embodied-design framework and its epistemic grounds. Int. J. Child-Comput. Interact. 2(1), 1–16 (2013)CrossRef

Nguyen, D.J., Larson, J.B.: Don’t forget about the body: exploring the curricular possibilities of embodied pedagogy. Innov. High. Educ. 40, 331–344 (2015)CrossRef

10.

Dourish, P.: Where the Action Is: The Foundations of Embodied Interaction, vol. 36. The MIT Press, London (2001)

11.

Shaer, O., Hornecker, E.: Tangible user interfaces: past, present, and future directions. Found. Trends Hum.-Comput. Interact. 3(1–2), 1–137 (2009)

12.

Birchfield, D., Thornburg, H., Megowan-Romanowicz, M. C., Hatton, S., Mechtley, B., Dolgov, I., Burleson, W.: Embodiment, multimodality, and composition: convergent themes across HCI and education for mixed-reality learning environments. Adv. Hum.-Comput. Interact., 1–19 (2008)

13.

Hornecker, E., Buur, J.: Getting a grip on tangible interaction: a framework on physical space and social interaction. In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 437–446. ACM, New York (2006)

14.

Li, K.H., Lou, S.J., Tsai, H.Y., Shih, R.C.: The effects of applying game-based learning to webcam motion sensor games for autistic students’ sensory integration training. Turkish Online J. Educ. Technol. TOJET 11(4), 451–459 (2012)

15.

Leitan, N.D., Chaffey, L.: Embodied cognition and its applications: a brief review. Sensoria: J. Mind Brain Cult. 10(1), 3–10 (2014)

16.

Bartoli, L., Corradi, C., Garzotto, F., Valoriani, M.: Exploring motion-based touchless games for Autistic children’s learning, In: Proceedings of Interaction Design and Children (IDC) Conference, New York, NY, USA (2013)

17.

Barnhart, R.C., Davenport, M.J., Epps, S.B., Nordquist, V.M.: Developmental coordination disorder, physical therapy. J. Am. Phys. Ther. Assoc. 83(8), 722–731 (2003)

18.

Chang, Y.-J., Chen, S.-F., Huang, J.-D.: A Kinect-based system for physical rehabilitation: A pilot study for young adults with motor disabilities. Res. Dev. Disabil. 32(6), 2566–2570 (2011)CrossRef

19.

Sandlund, M., Lindh Waterworth, E., Häger, C.: Using motion interactive games to promote physical activity and enhance motor performance in children with cerebral palsy. Dev. Neurorehabil. 14(1), 15–21 (2011)CrossRef

20.

AlSaif, A.A., Alsenany, S.: Effects of interactive games on motor performance in children with spastic cerebral palsy. J. Phys. Ther. Sci. 27(6), 2001–2003 (2015)CrossRef

21.

Sajan, J. E., John, J. A., Grace, P., Sabu, S. S., Tharion, G.: Wii-based interactive video games as a supplement to conventional therapy for rehabilitation of children with cerebral palsy: a pilot, randomized controlled trial. Dev. Neurorehabil., 1–7 (2016)

22.

Deutsch, J.E., Borbely, M., Filler, J., Huhn, K., Guarrera-Bowlby, P.: Use of a lowcost, commercially available gaming console (wii) for rehabilitation of an adolescent with cerebral palsy. Phys. Ther. 88(10), 1196–1207 (2008)CrossRef

23.

Hsu, J.K., Thibodeau, R., Wong, S.J., Zukiwsky, D., Cecile, S., Walton, D.M.: A “Wii” bit of fun: The effects of adding Nintendo Wii Bowling to a standard exercise regimen for residents of long-term care with upper extremity dysfunction. Physiother. Theory Pract. 27(3), 1–9 (2010)

24.

Joo, L.Y., Yin, T.S., Xu, D., Thia, E., Chia, P.F., Kuah, C.W.K., He, K.K.: Feasibility study using interactive commercial off-the-shelf computer gaming in upper limb rehabilitation in patients after stroke. J. Rehabil. Med. 42, 437–441 (2010)CrossRef

25.

Loureiro, R.C.V., Valentine, D., Lamperd, B., Collin, C., Harwin, W.S.: Gaming and social interactions in the rehabilitation of brain injuries: a pilot study with the Nintendo Wii console. In: Designing Inclusive Interactions, Part V, pp. 219–228 (2010)

26.

Saposnik, G., Teasell, R., Mamdani, M., Hall, J., McIlroy, W., Cheung, D., Bayley, M.: Effectiveness of virtual reality using Wii gaming technology in stroke rehabilitation: a pilot randomized clinical trial and proof of principle. Stroke 41, 1477–1484 (2010)CrossRef

27.

Altanis, G., Boloudakis, M., Retalis, S., Nikou, N.: Children with motor impairments play a kinect learning game: first findings from a pilot case in an authentic classroom environment. J. Interact. Des. Architect. 19, 91–104 (2013)

28.

Kourakli, M., Altanis, I., Retalis, S., Boloudakis, M., Zbainos, D., Antonopoulou, K.: Towards the improvement of the cognitive, motoric and academic skills of students with special educational needs using Kinect learning games. Int. J. Child-Comput. Interact. 11, 28–39 (2016)

29.

Vernadakis, N., Papastergiou, M., Zetou, E., Antoniou, P.: The impact of an exergame-based intervention on children’s fundamental motor skills. Comput. Educ. 83, 90–102 (2015)CrossRef

30.

Lee, W., Huang, C., Wu, C., Huang, S., Chen, G.: The effects of using embodied interactions to improve learning performance. In: 12th IEEE International Conference on Advanced Learning Technologies (ICALT), pp. 557–559. IEEE, New York (2012)

31.

Van Dam, W.O., Van Dijk, M., Bekkering, H., Rueschemeyer, S.A.: Flexibility in embodied lexical-semantic representations. Hum. Brain Mapp. 33(10), 2322–2333 (2012)CrossRef

32.

Chang, C.Y., Chien, Y.T., Chiang, C.Y., Lin, M.C., Lai, H.C.: Embodying gesture-based multimedia to improve learning. British J. Ed. Technol. 44(1), E5–E9 (2013)CrossRef

33.

Kinems Learning Games. http://www.kinems.com/

34.

Retalis, S., Korpa, T., Skaloumpakas, C., Boloudakis, M., Kourakli, M. Altanis, I., Siameti, F., Papadopoulou, P., Lytra, F., Pervanidou, P.: Empowering children with ADHD 21 learning disabilities with the Kinems kinect learning games. In: 8th European Conference on Games Based Learning, vol. 1, pp. 469–477 (2014)

35.

Saldaña, J.: The Coding Manual for Qualitative Researchers. Sage, London (2009)

36.

Dijkstra, K., Eerland, A., Zijlmans, J., Post, L.S.: Embodied cognition, abstract concepts, and the benefits of new technology for implicit body manipulation. Front. Psychol. 5(757) (2014)

Title: Using Embodied Learning Technology to Advance Motor Performance of Children with Special Educational Needs and Motor Impairments
Authors: Panagiotis Kosmas
Andri Ioannou
Symeon Retalis
Publisher: Springer International Publishing
Book: Data Driven Approaches in Digital Education
Print ISBN: 978-3-319-66609-9

Electronic ISBN: 978-3-319-66610-5

Copyright Year: 2017
DOI: https://doi.org/10.1007/978-3-319-66610-5_9

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