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Design and Development of XR Contents Authoring Framework for IT Convergence Education

융합영상콘텐츠 교육을 위한 XR 콘텐츠저작 프레임워크 설계 및 제작

  • 임익수 (홍익대학교 MR아트텍센터)
  • Received : 2020.12.02
  • Accepted : 2020.12.24
  • Published : 2020.12.30

Abstract

Despite the growing educational demand for the extended reality (XR) convergence content creation for non-IT students, fewer studies have attempted to education material development. In this paper, non-IT students' requirement to create XR convergence contents was analyzed and designed framework system specification. The object-oriented application framework (OOAF) was developed for non-IT students to create XR convergence contents through simple interaction methods such as drag and drop in-game engines. To evaluate the developed framework XR contents development course was operated with 26 industrial design majors sophomore in university. More than 90% of students succeeded in working on prototype XR contents in Oculus Rift. This result will be expected to improve the quality of XR contents creation education for non-IT students and contribute to the growth of the future convergence contents industry.

비전공자 대상으로 확장현실기반 융합영상콘텐츠 제작에 대한 교육적 수요가 높아지고 있음에도 불구하고, 이를 실행할 수 있는 교육도구는 턱없이 부족하다. 이러한 문제를 해결하기 위해 본 연구는 비전공자 대상으로 확장현실기반 융합영상콘텐츠 제작에 대한 요구사항을 분석하고, 요구사항의 구현을 위한 프레임워크 기능을 설계하였다. 기능 설계를 바탕으로 프로그래밍 지식이 없는 IT 비전공자 학생이 게임엔진을 활용하여 드래그 앤드 드롭과 같은 간단한 방법을 통해 확장현실 콘텐츠를 제작할 수 있는 프레임워크를 설계하고 구현하였다. 여기서 프레임워크란 재사용 가능한 반 완성된 응용프로그램 템플릿 코드를 의미한다. 마지막으로 개발된 프레임워크의 교육 적합성을 알아보기 위해, 프레임워크를 사용하여 산업 디자인 전공 2학년 학생 26명을 대상으로 XR 콘텐츠 제작 교육을 수행하였다. 그 결과, 90%가 넘는 학생들이 실제 오큘러스 리프트에서 작동되는 수준의 콘텐츠 개발에 성공하는 것을 발견하였다. 본 연구의 결과는 비전공자를 위한 확장현실기반 융합영상콘텐츠 교육과정의 품질을 향상하는 데 활용될 수 있으며, 이를 통해 미래 콘텐츠 산업의 발전에 이바지할 수 있다.

Keywords

References

  1. A. O. Kwok and S. G. Koh, "COVID-19 and extended reality (XR)," Current Issues in Tourism, Advance online publication, pp. 1-6, July 2020.
  2. Strategyanalytics. Short and long term impacts of COVID-1 9 on the ar and vr market [Internet]. Available: https://www.strategyanalytics.com/access-services/media-and-services/virtual-and-augmented-reality/reports/report-detail/summary-covid-19-impact-on-ar-and-vr.
  3. E. S. Leem and T. Woo, "Exploratory research on virtual reality contents design methods based on head mounted device," Journal of Korean Society of Media & Arts, Vol 14, No 4, pp. 91-106, Jun. 2016.
  4. B. H. Choi, "Training in the production of effective prototypes using core mechanic diagram and unreal blueprint," Journal of the Korea Society of Computer and Information, Vol. 25, No. 11, pp. 75-82, Nov. 2020. https://doi.org/10.9708/JKSCI.2020.25.11.075
  5. C. M. Nam, C. W. Kim, "A comparative study of virtual reality content creation education by learner," Journal of The Korean Association of Information Education, Vol. 25, No. 5, pp. 585-592, Oct. 2018.
  6. Korea Creative Contents Agency (KOCCA), Changes in the broadcasting video market that virtual reality will bring, in 2016 Broadcasting Industry White Paper, Ministry of Culture, Sports and Tourism, pp. 80-93, 2017.
  7. Korea Institute for Advancement of Technology(KIAT), AR.VR industry analysis and industrial technical manpower analysis report, Ministry of Trade, Industry and Energy, pp. 70-76, 2019.
  8. M. Fayad and D. C. Schmidt, "Object-oriented application frameworks," Communications of the ACM, Vol. 40, No. 10, pp. 32-38, 1997. https://doi.org/10.1145/262793.262798
  9. Y. K. Wang and R. A. Calvo, "A software application framework for developing immersive virtual reality experiences in health domain," in Proceeding of the 2017 IEEE Life Sciences Conference (LSC), Sydney:Australia, pp. 30-37, 2017.
  10. P. L. Smith and T. J. Ragan, Instructional Design, Hoboken, NJ: John Wiley & Sons, 2004.
  11. R. A. Reiser and J. V. Dempsey, Trends and Issues in Instructional Design and Technology, 2nd ed. Boston, MA: Pearson, 2012.
  12. VR focus. 91% of hololens apps are being made in unity 2017; [Internet]. Available: https://www.vrfocus.com/2017/05/91-of-hololens-apps-are-being-made-in-unity/.
  13. B. Gan, Q. Dong, and C. Zhang, Application of virtual reality technology in the teaching of 3d animation course in Advances in 3D Image and Graphics Representation, Analysis, Computing and Information Technology, New York, NY: Springer, pp. 95-101, 2020.
  14. N. Y. G. Lai, K. H Wong, L. J. Yu, and S. H. Kang, "Virtual reality (vr) in engineering education and training: a bibliometric analysis," in Proceedings of the 2020 The 2nd World Symposium on Software Engineering, Chengdu: China, pp. 161-165, 2020.
  15. C. M. Nam, C. W. Kim, K. S. Hong, C. Cho, and J. H. Hong, "A study on the characteristics of curriculum by school level in virtual reality," Journal of The Korean Association of Information Education, Vol. 24, No. 1, pp. 71-78, 2020. https://doi.org/10.14352/jkaie.2020.24.1.71
  16. J. Seo, "A case study on programming learning of non-SW majors for SW convergence education," Journal of Digital Convergence, Vol. 15, No. 7, pp. 123-132, 2017. https://doi.org/10.14400/JDC.2017.15.7.123
  17. E. R. Sykes, "Determining the effectiveness of the 3D Alice programming environment at the computer science level," Journal of Educational Computing Research, Vol. 36, No. 2, pp. 223-244, 2007. https://doi.org/10.2190/J175-Q735-1345-270M
  18. J. Linowes, Unity Virtual Reality Projects, Birmingham, UK: Packt Publishing, 2015.
  19. P. Mealy, Virtual & Augmented Reality for Dummies, Hoboken, NJ: John Wiley & Sons, 2018.
  20. Statista. Share of virtual reality head-mounted display unit sales worldwide in 2016 and 2020 (in million units), by plat form 2020 [Internet]. Available: https://www.statista.com/statistics/697171/head-mounted-display-unit-sales-share-by-platform-worldwide/.
  21. J. Glover and J. Linowes, Complete Virtual Reality and Augmented Reality Development with Unity: Leverage the Power of Unity and Become a Pro at Creating Mixed Reality Application, Birmingham, UK: Packt Publishing, 2019.
  22. Korea Education & Research Information Service (KERIS), A Study on the Educational Application of IT Convergence New Technology in the Fourth Industrial Revolution II, Ministry of Education, pp. 53-54, 2016.
  23. D. Parmar, J. Isaac, S. V. Badu, N. D'Souza, A. E. Leonard, S. Jorg, K. Gundersen, and S. B. Daily, "Programming moves: design and evaluation of applying embodied interaction in virtual environments to enhance computational thinking in middle school students," in Proceeding of the 2016 IEEE Virtual Reality (VR), Greenville: SC, pp. 131-140, 2016.
  24. J. Pirker, A. Dengel, M. Holly, and S. Safikhani, "Virtual reality in computer science education: A systematic review," in Proceeding of the 26th ACM Symposium on Virtual Reality Software and Technology, New York: NY, pp 1-8, 2020.