한국농공학회논문집 (Journal of The Korean Society of Agricultural Engineers)

  • 제54권3호
  • /
  • Pages.81-89
  • /
  • 2012
  • /
  • 1738-3692(pISSN)
  • /
  • 2093-7709(eISSN)
한국농공학회 (The Korean Society of Agricultural Engineers)
권호 표지
DOI QR코드

DOI QR Code

가상현실을 이용한 구조설계 시스템의 학습효과에 관한 연구 - 구조 요소의 데이터베이스 구축방법에 관하여 -

A Study on the Effects of Virtural Learning in Structural Design - Constructing Databse of Structural Component based on the virtual Reality Engine -

  • 김한중 (한경대학교 지역자원시스템공학과)
  • 투고 : 2012.04.12
  • 심사 : 2012.05.15
  • 발행 : 2012.05.31
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

This paper presents a set of controlled simulated statical and engineering mechanical experiments accessible via the virtual world environment (VWE) and virtual physics lab S/W. Online courses of the university offering courses and/or programs online are growing and the number of students want education in ways which fit their personal places, e-learning is becoming more important and ubiquitous each year. In this study, first of all, question is rather 'How do we execute the learning effectiveness of e-learning courses?' than 'Why does they need e-learnig or VW-learning?'. In particular, is it possible to effectively teach mechanical engineering courses online? The answer was 'No'. So, there is little research on many of these questions. And another important question is 'Is e-learning cost effective?'. For the answer, This research provided that an instructional design model is used to 'How to think and apply the Newtonian forces' in the virtual physics lab S/W. Collected data from student are administered in the spring semester when students studied 'Introduction to Bio-resources and Systems Engineering'. Results show that a cadre of students can take highly interactively physical properties of mechanical engineering in the virtual laboratory environment. Those show that VWE is greater than that of a similar real world presentation or experimental lab, since most of students are delighted to modify and retry modeling works in the VWE.

키워드

참고문헌

  1. Ann Myers Medical Center. 2010. http://ammc.wordpress.com/.
  2. Andreas Albustin and Christian Schratter, 2009, "Wonderland for e-learning Using an operating system independent virtual world as an environment for learning", Graz University of Technology.
  3. Beck, H. W. 2009. Lyra Virtual World Environment (Lyra VWE): Educational Applications in Agriculture and Natural Resources, 7th World Congress on Computers in Agriculture and Natural Resources Conference Proceedings, 22-24 June 2009, Reno, Nevada USA.
  4. Beck, H. W., K. Morgan, Y. Jung, S. Grunwald and H.-Y. Kwon, 2008, Ontology-based simulation applied to soil water and nutrient management. In: P. Papajorgji, Editor, Advances in Modeling Agricultural Systems, Springer, Berlin, pp.209-242.
  5. Bishop, J. 2009. Enhancing the understanding of genres of web-based communities: The role of the ecological cognition framework. International Journal of Web-Based Communities, 5(1): 4-17. https://doi.org/10.1504/IJWBC.2009.021558
  6. Diener, Scott, John Windsro, David Bodily, Design and Development of Clinical Simulations in Second Life, EDUCAUSE Australasia 2009, Perth Western Australia. 3-6 May 2009.
  7. Hambli Ridha, Abdessalam Chamekh, He야 Bel Hadj Salah, 2006, Real-time deformation of structure using finite element and neural networks in virtual reality applications, Finite Elements in Analysis and Design, pp. 985-991.
  8. Ell Shaer M., M. Mobasher, H. Arafa, A. Zaki, 2010, Belnded Learning Approach in Research and Education of Laboratory Physics, Conference ICL2010, 00. 685-691.
  9. Lee, K.C., 2007, A Study of on the Development of Golf Learning Program Using 3D Web-based Virtual Reality Technology, International Journal of Coaching Science, 9(4): pp. 353-367.
  10. Mehdi Setareh, P.E., Doug A. Bowman2 and Alex Kalita, 2005, Development of a Virtual Reality Structural Analysis System, Journal of Architectural Engineering ASCE, pp.156-164.
  11. Orland, B., K. Budthimedhee, and J. Uusitalo. 2001. Considering virtual worlds as representations of landscape realities and as tools for landscape planning. Landscape and Urban Planning, 54: 139-148. https://doi.org/10.1016/S0169-2046(01)00132-3
  12. Park, M. J., S. Y. Lee, J. Y. Choi, H. J. Kim, S. B. Kim, 2008, Web GIS based Three Dimensional Landscape Simulation for Rural Area, Rural Planning, 14(1), pp.51-58 (in Korean).
  13. Setareh Mehdi, Doug A. Bowman, and Alex Kalita, 2005, Development of a Virtual Reality Structural Analysis System, Journal of Architectural Engineering: 156-164.
  14. Tlaczala, W., M. Zaremba, A. Zagorski and G. Gorghiu, 2007, Virtual physics laboratory for distance learning developed in the frame of the VccSSe European project, Research, Reflections and innovations in Integrating ICT in Education.
  15. Tlaczala, W. Tlaczala, Virtual Instrumentation in Physics Handbook of Measuring System Design, edited by Peter Sydenham and Richard Thorn, ${(c)}2005$ John Wiley & Sons, Ltd., pp. 695-701.
  16. Tlaczala, W., G. Gorghiu, A. Glava, P. Bazan, J. Kukkonen, W. Masior, J. Uycki, and M. Zaremba, Computer simulation and modeling in virtual physics experiments, Proceedings of IV International Conference on Multimedia and Information & Communication Technologies in Education. November 22-25th 2006, Seville, Spain.
  17. Thomas F. Schubert, Jr., Susan M. Lord, Dalia M. Tawy, Sami D. Alsaialy, 2004, A LabVIEW Interface for Transistor Parameter Analysis: An Opportunity to Explore the Utility of Computer Interfaces, Proceedings of the 2004 American Society for Engineering Education Annual Conference & Exposition, session 1426.
  18. Gerald W. Meisner, Harol Hoffman, Mike Turner, Learning Physics in a Virtual Environment: Is There Any?, Journal of Physics Education, 2(2) May 2008.
  19. Algodoo, 2011, http://www.algodoo.com/forum/viewforum.php?f=41&sid=79ce69ad1f956ba48094fce0786c55aa.