Imersivní virtuální realita ve vzdělávání: SWOT analýza

Roč.32,č.1(2022)

Abstrakt

Imersivní virtuální realita představuje významný trend v oblasti vzdělávacích technologií. Kvalitativně orientovaná přehledová studie se snaží popsat nejvlivnější (dle počtu citačních ohlasů) studie zařazené v databázi SCOPUS, které se věnují imersivní virtuální realitě ve vzdělávání. Jde o významný trend, který může proměnit charakter vzdělávání jak z hlediska jeho formy, tak také obsahu nebo rozvíjených kompetencí. Přehledová studie analyzuje 15 textů z databáze SCOPUS. Zaměřuje se na SWOT analýzu vyplývající z těchto textů a reflektující edukační možnosti využití této technologie ve vzdělávání. Nepůjde nám tedy o komplexní pohled na celou problematiku, ale o identifikaci nejvýraznějších silných a slabých stránek, výzev a hrozeb v textech, které na tvorbu odborného (a sekundárně i edukačně-aplikačního) diskursu mají největší vliv. Studie ukazuje, že i přes reálně existující problémy a limity této technologie (v oblasti technického zpracování i poznatků v pedagogice a psychologii) jde o téma, kterému je třeba věnovat vysokou míru pozornosti, neboť umožňuje zásadní transformaci některých vzdělávacích postupů.


Klíčová slova:
virtuální realita, přehledová studie, SWOT analýza, technologie ve vzdělávání
Reference

Adl, A., Ashouri, M., Jamalpour, G., & Sandoosi, S. M. (2013). Overview SWOT analysis method and its application in organizations. Singaporean Journal of Business, Economics and Management Studies, 51(1114), 1–6.

Appel, L., Appel, E., Bogler, O., Wiseman, M., Cohen, L., Ein, N., Abrams, H. B. & Campos, J. L. (2020). Older adults with cognitive and/or physical impairments can benefit from immersive virtual reality experiences: A feasibility study. Frontiers in medicine, 6, 329.

Baños, R., Botella, C., Garcia-Palacios, A., Villa, H., Perpiñá, C., & Gallardo, M. (1999). Psychological variables and reality judgment in virtual environments: The roles of absorption and dissociation. CyberPsychology & Behavior, 2(2), 143–148.

Barsom, E. Z., Graafland, M., & Schijven, M. P. (2016). Systematic review on the effectiveness of augmented reality applications in medical training. Surgical endoscopy, 30(10), 4174–4183.

Bhaskar, R. (1997). On the ontological status of ideas. Journal for the Theory of Social Behaviour, 27(2–3), 139–147.

Biocca, F., & Delaney, B. (1995). Immersive virtual reality technology. In F. Biocca & M. R. Levy (Eds.), Communication in the age of virtual reality (s. 57–126). Lawrence Erlbaum Associates.

Brand, S. (1988). The Media Lab: Inventing the future at MIT. Penguin Books.

Civelek, T., Ucar, E., Ustunel, H., & Aydın, M. K. (2014). Effects of a haptic augmented simulation on K-12 students’ achievement and their attitudes towards physics. Eurasia Journal of Mathematics, Science and Technology Education, 10(6), 565–574.

De la Peña, N., Weil, P., Llobera, J., Giannopoulos, E., Pomés, A., Spanlang, B., Friedman, D., Sanches-Vivez, M. V., & Slater, M. (2010). Immersive journalism: immersive virtual reality for the first-person experience of news. Presence: Teleoperators and virtual environments, 19(4), 291–301.

Duffek, V., Fiala, J., Hořejší, P., Mentlík, P., Polcar, J., Průcha, T., & Rohlíková, L. (2021). Pre-service teachers’ immersive experience in virtual classroom. In A. Visvizi, M. D. Lytras, & N. R. Aljohani (Eds.), Research and Innovation Forum 2020: Disruptive Technologies in Times of Change (s. 155–170). Springer International Publishing.

Dyer, E., Swartzlander, B. J., & Gugliucci, M. R. (2018). Using virtual reality in medical education to teach empathy. Journal of the Medical Library Association: JMLA, 106(4), 498.

Freina, L., & Ott, M. (2015, April). A literature review on immersive virtual reality in education: State of the art and perspectives. In The international scientific conference elearning and software for education. https://www.itd.cnr.it/download/eLSE%202015%20Freina%20Ott%20Paper.pdf

Giglioli, I. A. C., Pravettoni, G., Martín, D. L. S., Parra, E. & Raya, M. A. (2017). A novel integrating virtual reality approach for the assessment of the attachment behavioral system. Frontiers in psychology, 8, 959.

Górski, F., Buń, P., Wichniarek, R., Zawadzki, P., & Hamrol, A. (2016). Effective design of educational virtual reality applications for medicine using knowledge-engineering techniques. EURASIA Journal of Mathematics, Science and Technology Education, 13(2), 395–416.

Gürel, E., & Tat, M. (2017). SWOT analysis: A theoretical review. Journal of International Social Research, 10(51), 994–1006.

Hamilton, D., McKechnie, J., Edgerton, E., & Wilson, C. (2021). Immersive virtual reality as a pedagogical tool in education: A systematic literature review of quantitative learning outcomes and experimental design. Journal of Computers in Education, 8(1), 1–32.

Hew, K. F., & Cheung, W. S. (2010). Use of three-dimensional (3-D) immersive virtual worlds in K-12 and higher education settings: A review of the research. British journal of educational

technology, 41(1), 33–55.

Huang, K. T., Ball, C., Francis, J., Ratan, R., Boumis, J., & Fordham, J. (2019). Augmented versus virtual reality in education: An exploratory study examining science knowledge retention when using augmented reality/virtual reality mobile applications. Cyberpsychology, Behavior, and Social Networking, 22(2), 105–110.

Iglesias, M. I., Jenkins, M., & Morison, G. (2021, March). Enhanced low-cost web-based virtual tour experience for prospective students. In 2021 IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops (VRW) (s. 677–678). IEEE.

Jensen, L., & Konradsen, F. (2018). A review of the use of virtual reality head-mounted displays in education and training. Education and Information Technologies, 23(4), 1515–1529.

Johnson, M. (2013). The body in the mind: The bodily basis of meaning, imagination, and reason. University of Chicago Press.

Johnson, W. L., & Lester, J. C. (2016). Face-to-face interaction with pedagogical agents, twenty years later. International Journal of Artificial intelligence in education, 26(1), 25–36.

Johnson-Glenberg, M. C., Megowan-Romanowicz, C., Birchfield, D. A., & Savio-Ramos, C. (2016). Effects of embodied learning and digital platform on the retention of physics content: Centripetal force. Frontiers in psychology, 7, 1819.

Juřík, V., Herman, L., Snopková, D., Galang, A. J., Stachoň, Z., Chmelík, J., Kubíček, P., & Šašinka, Č. (2020). The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications. Plos one, 15(5), e0233353.

Kaufmann, H., & Schmalstieg, D. (2006, March). Designing immersive virtual reality for geometry education. In IEEE Virtual Reality Conference (VR 2006) (s. 51–58). IEEE.

Keefe, D. F., & Laidlaw, D. H. (2013, July). Virtual reality data visualization for team-based STEAM education: Tools, methods, and lessons learned. In International Conference on Virtual, Augmented and Mixed Reality (s. 179–187). Springer.

Killam, L. (2013). Research terminology simplified: Paradigms, axiology, ontology, epistemology and methodology. Laura Killam.

Kilmon, C. A., Brown, L., Ghosh, S., & Mikitiuk, A. (2010). Immersive virtual reality simulations in nursing education. Nursing education perspectives, 31(5), 314–317.

Koilias, A., Nelson, M., Gubbi, S., Mousas, C., & Anagnostopoulos, C. N. (2020). Evaluating human movement coordination during immersive walking in a virtual crowd. Behavioral Sciences, 10(9), 130.

Lakoff, G. (2006). Ženy, oheň a nebezpečné věci: co kategorie vypovídají o naší mysli. Triáda.

Lakoff, G., & Johnson, M. (2002). Metafory, kterými žijeme. Host.

Limniou, M., Roberts, D., & Papadopoulos, N. (2008). Full immersive virtual environment CAVETM in chemistry education. Computers & Education, 51(2), 584–593.

Lindgren, R., Tscholl, M., Wang, S., & Johnson, E. (2016). Enhancing learning and engagement through embodied interaction within a mixed reality simulation. Computers & Education, 95, 174–187.

Lorenzo, G., Lledó, A., Pomares, J., & Roig, R. (2016). Design and application of an immersive virtual reality system to enhance emotional skills for children with autism spectrum disorders. Computers & Education, 98, 192–205.

Makransky, G., & Lilleholt, L. (2018). A structural equation modeling investigation of the emotional value of immersive virtual reality in education. Educational Technology Research and Development, 66(5), 1141–1164.

Mareš, J. (2013). Přehledové studie: jejich typologie, funkce a způsob vytváření. Pedagogická orientace, 23(4), 427–454.

Marín-Morales, J., Higuera-Trujillo, J. L., Greco, A., Guixeres, J., Llinares, C., Scilingo, E. P., Alcañiz, M., & Valenza, G. (2018). Affective computing in virtual reality: emotion recognition from brain and heartbeat dynamics using wearable sensors. Scientific reports, 8(1), 1–15.

Marín-Morales, J., Torrecilla, C., Guixeres, J., & Llinares, C. (2017). Methodological bases for a new platform for the measurement of human behaviour in virtual environments. DYNA, 92(1), 34–38.

Martinez, M., Garces, G. A., Dupont, L., Hily, A., Camargo, M., Jacob, C., & Dinet, J. (2020, April). Physiological assessment of User eXprience supported by Immersive Environments: First input from a literature review. In ConVRgence (VRIC) Virtual Reality International Conference (s. 89–108). Laval Virtual.

Merchant, Z., Goetz, E. T., Cifuentes, L., Keeney-Kennicutt, W., & Davis, T. J. (2014). Effectiveness of virtual reality-based instruction on students’ learning outcomes in K-12 and higher education: A meta-analysis. Computers & Education, 70, 29–40.

Meyer, O. A., Omdahl, M. K., & Makransky, G. (2019). Investigating the effect of pre-training when learning through immersive virtual reality and video: A media and methods experiment. Computers & Education, 140, 103603.

Moleta, T., & Nishioka, M. (2021). Populating virtual worlds-Architecture, photography, sonic art and creative writing collide at “In the Forest with the Trees we Made“. In PROJECTIONS, Proceedings of the 26th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA) 2021, Volume 2 (s. 233–242).

Moro, C., Štromberga, Z., Raikos, A., & Stirling, A. (2017). The effectiveness of virtual and augmented reality in health sciences and medical anatomy. Anatomical sciences education, 10(6), 549–559.

Murray, C. D., Fox, J., & Pettifer, S. (2007). Absorption, dissociation, locus of control and presence in virtual reality. Computers in Human Behavior, 23(3), 1347–1354.

Nordahl, R., & Korsgaard, D. (2010). Distraction as a measure of presence: Using visual and tactile adjustable distraction as a measure to determine immersive presence of content in mediated environments. Virtual Reality, 14(1), 27–42.

Pan, X., Slater, M., Beacco, A., Navarro, X., Bellido Rivas, A. I., Swapp, D., Hale, J., Forbes, P. A. G.,

Denvir, C., Hamilton, A. F. de C., & Delacroix, S. (2016). The responses of medical general practitioners to unreasonable patient demand for antibiotics-a study of medical ethics using immersive virtual reality. PloS one, 11(2), e0146837.

Potkonjak, V., Gardner, M., Callaghan, V., Mattila, P., Guetl, C., Petrović, V. M., & Jovanović, K. (2016). Virtual laboratories for education in science, technology, and engineering: A review. Computers & Education, 95, 309–327.

Pulijala, Y., Ma, M., Pears, M., Peebles, D., & Ayoub, A. (2018). Effectiveness of immersive virtual reality in surgical training—a randomized control trial. Journal of Oral and Maxillofacial Surgery, 76(5), 1065–1072.

Radianti, J., Majchrzak, T. A., Fromm, J., & Wohlgenannt, I. (2020). A systematic review of immersive virtual reality applications for higher education: Design elements, lessons learned, and research agenda. Computers & Education, 147, 103778.

Rickel, J. (2001, September). Intelligent virtual agents for education and training: Opportunities and challenges. In International Workshop on Intelligent Virtual Agents (s. 15–22). Springer.

Rogers, S. (2019). Virtual reality: THE learning aid of the 21st century. Forbes. Retrieved August

12, 2022, from https://www.forbes.com/sites/solrogers/2019/03/15/virtual-reality-thelearning-aid-of-the-21st-century/?sh=1eb27a5d139b

Ryan, M. L. (2015). Narrative as virtual reality 2: Revisiting immersion and interactivity in literature and electronic media (Vol. 2). JHU Press.

Slater, M. (2014). Grand challenges in virtual environments. Frontiers in Robotics and AI, 1. https://doi.org/10.3389/frobt.2014.00003

Slater, M., & Sanchez-Vives, M. V. (2016). Enhancing our lives with immersive virtual reality. Frontiers in Robotics and AI, 3, 74.

Slater, M., & Wilbur, S. (1997). A framework for immersive virtual environments (FIVE): Speculations on the role of presence in virtual environments. Presence: Teleoperators & Virtual Environments, 6(6), 603–616.

Soliman, M., & Guetl, C. (2010, May). Intelligent pedagogical agents in immersive virtual learning environments: A review. In The 33rd International Convention MIPRO (s. 827–832). IEEE.

Soliman, M., & Guetl, C. (2013, March). Implementing Intelligent Pedagogical Agents in virtual worlds: Tutoring natural science experiments in OpenWonderland. In 2013 IEEE Global Engineering Education Conference (EDUCON) (s. 782–789). IEEE.

Šašinka, Č., Stachoň, Z., Čeněk, J., Šašinková, A., Popelka, S., Ugwitz, P., & Lacko, D. (2021). A comparison of the performance on extrinsic and intrinsic cartographic visualizations through correctness, response time and cognitive processing. Plos one, 16(4), e0250164.

Thompson, M. (2011). Ontological shift or ontological drift? Reality claims, epistemological frameworks, and theory generation in organization studies. Academy of Management Review, 36(4), 754–773.

Villena Taranilla, R., Cózar-Gutiérrez, R., González-Calero, J. A., & López Cirugeda, I. (2019). Strolling through a city of the Roman Empire: an analysis of the potential of virtual reality to teach history in Primary Education. Interactive Learning Environments, 30(4), 1–11.

Vince, J. (2004). Introduction to virtual reality. Springer Science & Business.

Virtual reality, n. (2021). OED Online. Oxford University Press. www.oed.com/view/Entry/328583

Walsh, K. R., & Pawlowski, S. D. (2002). Virtual reality: A technology in need of IS research. Communications of the Association for Information Systems, 8(1), 20.

Willson, M. (2017). Algorithms (and the) everyday. Information, Communication & Society, 20(1), 137–150.

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