Simulation: Difference between revisions

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Simulation types:
Simulation types:


* Computer simulations
* [[Computer simulation]]s
* [[Computer game]]s
* [[Computer game]]s
* [[Microworld|Microworlds]], e.g. systems like [[AgentSheets]]
* [[Microworld|Microworlds]], e.g. systems like [[AgentSheets]]

Revision as of 19:14, 28 June 2007

Draft

Definition

  • A simulation is an imitation of some real device, state of affairs or process. Simulation attempts to represent certain features of the behavior of a physical or abstract system by the behavior of another system ( Wikipedia:Simulation)
  • Most often , simulations are fully or partially implemented with a software program that allows learn something about a given object of interest by "playing" with parameters of a model ("What happens if I do this" ? ... and later, "why did this happen ?").

According to Mergendoller et al. (2004): Randel, Morris, Wetzel, and Whitehill (1992) examined 68 studies on the effectiveness of simulations and found that students engaged in simulations and games show greater content retention over time compared to students engaged in conventional classroom instruction.

Simulation types:

In some pedagogical scenarios, learners have to build their own simulation with modeling software. Of course, some microworlds also have students model.

Links

References

  • Gibbons Andrew S., Jon Nelson and Rober Richards, The Architecture of Instructional Simulation: A Design for Tool Construction, Technical Report produced for the Idaho National Engineering and Environmental Laboratory (INEEL). PDF, retrieved 14:41, 18 October 2006 (MEST).
  • Gokhale, Anu A. (1996), Effectiveness of Computer Simulation for Enhancing Higher Order Thinking, Journal of Industrial Teacher Education, Volume 33, Number 4. HTML.
  • Mergendoller, J., Markham, T., Ravitz, J. & Larmer, J. (2004). Standards-Focused Project Based Learning: An Online Teacher Preparation Program and Website. In C. Crawford et al. (Eds.), Proceedings of Society for Information Technology and Teacher Education International Conference 2004 (pp. 2495-2500). Chesapeake, VA: AACE. [1]
  • Randel, J.M., Morris, B.A., Wetzel, C.D. & Whitehill, B.V. (1992). The effectiveness of games for educational purposes: A review of the research. Simulation and Gaming, 25, 261-276.
  • Repenning, A. and A. Ioannidou 2005. Mr. Vetro: A Collective Simulation Framework. ED-Media 2005, World Conference on Educational Multimedia, Hypermedia & Telecommunications, Montreal, Canada, Association for the Advancement of Computing in Education. PDF
  • Repenning, A., Ioannidou, A., & Zola, J. (2000). AgentSheets: End-User Programmable Simulations. Journal of Artificial Societies and Social Simulation, 3(3) HTML
  • Rieber,Lloyd, Seriously considering play: Designing interactive learning environments based on the blending of microworlds, simulations, and games, Educational Technology Research and Development, 44, 2, 6/18/1996, Pages 43-58, DOI 10.1007/BF02300540 - PDF (Access restricted)
  • Windschitl,Mark, Supporting the development of science inquiry skills with special classes of software, Educational Technology Research and Development, 48, 2, 6/28/2000, Pages 81-95, DOI 10.1007/BF02313402 - PDF (Access restricted)
  • Mayer,Igor, de Jong,Martin, Combining GDSS and Gaming for Decision Support, Group Decision and Negotiation, 13, 3, 5/7/2004, Pages 223-241, PDF Reprint