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e & i Elektrotechnik und Informationstechnik

, Volume 122, Issue 12, pp 498–505 | Cite as

Evaluating a framework of theoretical hypotheses for animation learning

  • S. Guttormsen Schär
  • H. -J. Zuberbühler
Originalarbeiten

Abstract

This paper presents a set of theoretical hypotheses suggesting various relationships between didactical setting and learning effects with animations. Particularly, we investigated whether individual flow-control adequately provides didactical means to reduce the cognitive load imposed by animations. We did not find an effect of individual flow control, probably due to the fact that this learning condition was embedded in a setting where not enough verbal information was offered together with the graphical animation. Overall the multimedia effects found in this study are in line with known principles of didactical multimedia design. Further, this study sheds light on theoretical aspects involved in the complex interaction between learning content, presentation, learning and resulting knowledge.

Keywords

animations didactical setting multimedia effects theoretical hypothesen 

Untersuchung mehrerer theoretischer Hypothesen zum Lernen mit Animationen

Zusammenfassung

Dieser Beitrag präsentiert eine Reihe theoretischer Hypothesen, welche auf verschiedene Beziehungen zwischen didaktischer Umgebung, Animation und Lerneffekten hinweisen. Im Besonderen haben die Autoren untersucht, ob eine individuelle Steuerung des Informationsflusses bei Animationen ein wirkungsvolles didaktisches Mittel ist, um die kognitive überlastung zu reduzieren. Es wurden keine Auswirkungen der individuellen informationssteuerung gefunden, wahrscheinlich weil diese Lernbedingung zu wenige verbale informationen zu den Bildern zeigte. Insgesamt stehen die in dieser Studie gefundenen Multimedia-Effekte im Einklang mit schon bekannten Prinzipien des didaktischen Multimedia-Designs. Zusätzlich beleuchtet diese Studie die theoretischen Aspekte, die betelligt sind an der komplexen interaktion zwischen Lerninhalt, Präsentation, Lernen und dem daraus resultierenden Wissen.

Schlüsselwörter

Animationen didaktische Umgebung Multimedia-Effekte theoretische Hypothesen 

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References

  1. Alty, J. L. (1993): Multimedia: We have the technology but do we have the methodology? Educational Multimedia and Hypermedia Annual, 1993: Proceeding of Ed-Media 93-World conference on Educational Multimedia and Hypermedia, Orlando, Florida, June 1993. Orlando: AACE: 3–10.Google Scholar
  2. Bètrancourt, M., Tversky, B. (2000): Effects of computer animation on users’ performance: A review. Le Travail Humain, 63 (4): 311–329.Google Scholar
  3. CISCO (1999): RIO Strategy v3.0 June 25, 1999, Cisco Systems, Inc. Retrieved January 14, 2003, from the World Wide Web: http://www.cisco.com/warp/public/779/ibs/solutions/learning/white-papers/el cisco rio.pdfGoogle Scholar
  4. Engelkamp, J. (1991): Das menschliche Gedächtnis (2. Aufl.). Göttingen: Verlag für Psychologie.Google Scholar
  5. Gagné, R. M. (1985): The conditions of learning and theory of instruction (4th ed.). New York: Holt, Rinehart, Winston.Google Scholar
  6. Gagné, R. M. (1965): The conditions of learning. New York: Holt, Rinehart, Wilson.Google Scholar
  7. Guttormsen Schär, S. (in Print): Multimedia Didactics. Aachen: Shaker Verlag.Google Scholar
  8. Guttormsen Schär. S., Kaiser, J. (in Print): Revising (Multi-) Media learning Principles by applying a differentiated knowledge concept. International Journal of Human Computer Studies (in print).Google Scholar
  9. Guttormsen Schär, S., Messerli, S., Schluep, S. (2004): Information categories for learning-object metadata. An empirical study on the practical validity of theoretically founded information categories. Ed-Media 2004, Lugano, Switzerland.Google Scholar
  10. ISO 14915-3, Norm Schluss-Entwurf prEN; ICS 13.180; 35.200, Juni 2002 (Software-Ergonomie für Multimedia — Informationsinhalte nach ISO Europäische Benutzerschnittstellen — Teil 3: Auswahl und Kombination von Medien (ISO/FDIS 14915-3: 2002).Google Scholar
  11. Kinzer, C. K., Sherwood, R. D., Loofbourrow, M. C. (1989): Simulation Software versus expository text: A comparison of retention across two instructional tools. Reading Research and Instruction, 28: 41–49.CrossRefGoogle Scholar
  12. Large, A. (1996): Computer animation in an instructional environment. LISR, 18: 3–23.Google Scholar
  13. Levin, J. R., Anglin, G. J., Carney, R. N. (1987): On empirically validating functions of pictures in prose. In: D. W. H. Willows, H.A. Willows (Ed.):The psychology of illustration, (Vol. I, Basic research: 51–85). New York: Springer.Google Scholar
  14. Mayer, R. E. (2001): Multimedia learning. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
  15. Merrill, M. D. (1983): Component display theory. In: Instructional-design theories and models: An overview of their current status. Hillsdale: Lawrence Erlbaum associates, Publishers.Google Scholar
  16. Merrill, M. D. (1996): Instructional transaction theory: An instructional design model based on knowledge objects. Educational Technology, 36 (3): 30–37.Google Scholar
  17. Merrill, M. D. (2000): Knowledge objects and mental models. (Vol. 2003).Google Scholar
  18. Merrill, M. D. (2001): Components of Instruction. Toward a theoretical tool for instructional design. Instructional Science, 29 (4): 291–310.CrossRefGoogle Scholar
  19. Paivio, A. (1986): Dual coding theory. In: A. Paivio (Ed.): Mental representations. A dual coding approach. Oxford: Oxford University Press: 53–83.Google Scholar
  20. Pane, J. F., Corbett, A. T., John, B. E. (1996): Assessing dynamics in computer-based instructions. In: Proceedings of the International conference on Computer Human Interaction CHI’96: 197–204. New York: ACM Press.Google Scholar
  21. Park, I., Hannafin, M. J. (1993): Empirically-based guidelines for the design of interactive multimedia. Educational Technology Research and Development, 41 (3): 63–85.CrossRefGoogle Scholar
  22. Park, O.-C., Hopkins, R. (1993): Instructional conditions for using dynamic visual displays: a review. Instructional Science, 21: 427–449.CrossRefGoogle Scholar
  23. Peeck, J. (1993): Wissenserwerb mit darstellenden Bildern. In: B. Weidenmann (Ed.), Wissenserwerb mit Bildern, Instruktionale Bilder in Printmedien, Film/Video und Computerprogrammen. Verlag Hans Huber: 59–94.Google Scholar
  24. Rieber, L. P. (1989): The effects of computer animated elaboration strategies and practice on factual and application learning in an elementary science lesson. Journal of Educational Computing Research, 5 (4): 431–444.CrossRefGoogle Scholar
  25. Rieber, L. P. (1990a): Animation in computer-based instruction. Educational Technology Research & Development, 38 (1): 77–86.CrossRefGoogle Scholar
  26. Rieber, L. P. (1990b): Using computer animated graphics in science instruction with children. Journal of Educational Psychology, 82: 135–140.CrossRefGoogle Scholar
  27. Rieber, L. P. (1991a): Animation, incidental learning, and continuing motivation. Journal of Educational Psychology, 83 (3): 318–328.CrossRefGoogle Scholar
  28. Rieber, L. P. (1991b): Effects of visual grouping strategies of computer-animated presentations on selective attention in science. Educational Technology Research and Development, 39 (4): 5–15.CrossRefGoogle Scholar
  29. Rieber, L. P., Boyce, M. J., Assad, C. (1990): The effects of computer animation on adult learning and retrieval tasks. Journal of Computer Based Instruction, 17 (2): 46–52.Google Scholar
  30. Rieber, L. P., Hannafin, M. J. (1988): Effects of textual and animated orienting activities and practice on elarning from computer-based instruction. Computers in the Schools, 5 (1/2): 77–88.CrossRefGoogle Scholar
  31. Rieber, L. P., Kini, A. S. (1991): Theoretical foundations of instructional applications of computer-generated animated visuals. Journal of Computer Based Instruction, 18 (3): 83–88.Google Scholar
  32. Sweller, J. (1999): Instructional design in technical areas (Vol. 43): Camberwell, Victoria, Acer Press.Google Scholar

Copyright information

© Springer 2005

Authors and Affiliations

  1. 1.Institute for Medical EducationMedical Faculty of the University of BernBernSchweiz
  2. 2.Multimedia- & E-Learning ServicesUniversity of ZürichZürichSchweiz

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