ICCAL 1989: Computer Assisted Learning pp 31-37 | Cite as

Situated cognition and intelligent tutoring systems

  • William J. Clancey
Conference paper
First Online:
Part of the Lecture Notes in Computer Science book series (LNCS, volume 360)

Keywords

Knowledge Engineering Intelligent Machine Intelligent Tutor System Faulty Circuit Apprenticeship Learning 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References

  1. Agre, P.E. 1988. Writing and representation. Unpublished MIT Technical Report.Google Scholar
  2. Bartlett, F.C. 1977. Remembering—A Study in Experimental and Social Psychology. Cambridge: Cambridge University Press.Google Scholar
  3. Braitenberg, V. 1984. Vehicles—Experiments in Synthetic Psychology. Cambridge: The MIT Press.Google Scholar
  4. Brooks, R.A. 1988. How to build complete creatures rather than isolated cognitive simulators. In K. vanLehn (editor), Architectures for Intelligence: The Twenty-Second Carnegie Symposium on Cognition. Hillsdale: Lawrence Erlbaum Associates. In preparation.Google Scholar
  5. Brown, J.S., Burton, R.R., and deKleer, J. 1982. Pedagogical, natural language, and knowledge engineering techniques in SOPHIE I, II, and III. In D. Sleeman and J.S. Brown (editors), Intelligent Tutoring Systems, London: Academic press, pages 227–282.Google Scholar
  6. Clancey, W.J. 1987. From Guidon to Neomycin and Heracles in twenty short lessons: ONR Final Report, 1979–1985. In A. van Lamsweerde (editor), Current Issues in Expert Systems. London: Academic Press, pages 79–123. Also, The AI Magazine, 7(3):40–60, Conference edition, 1986.Google Scholar
  7. Clancey, W.J. (in press). Viewing knowledge bases as qualitative models. IEEE Expert. Also, KSL Technical Report 86-27, Stanford University.Google Scholar
  8. Clancey, W.J. 1987. Review of Winograd and Flores's "Understanding Computers and Cognition." Artificial Intelligence, 31(2), 232–250.CrossRefGoogle Scholar
  9. Cohen, H. 1988. How to draw 3 people. Invited Talk. National Conference on Artificial Intelligence. Minneapolis.Google Scholar
  10. Greeno, J.G. 1988. Situations, mental models, and generative knowledge. IRL Technical Report.Google Scholar
  11. Mandler, G. 1984. Cohabitation in the Cognitive Sciences. In W. Kintsch, J.R. Miller, and P.G. Polson (editors), Method and Tactics in Cognitive Science, Hillsdale: Lawrence Erlbaum Associates, p. 305–315.Google Scholar
  12. Rommetveit, R. 1987. Meaning, context, an control: Convergent trends and controversial issues in current social-scientific research on human cognition and communication. Inquiry, 30:77–79.Google Scholar
  13. Roschelle, J. 1988. Sufficiency and utility of physics problem solving processes. Proceedings of ITS-88, Montreal, pages 123–138.Google Scholar
  14. Stucky, S. 1987. The situated processing of situated language. Technical Report CSLI-87-80.Google Scholar
  15. Tyler, S. 1978. The Said and the Unsaid—Mind, Meaning, and Culture. New York: Academic Press.Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1989

Authors and Affiliations

  • William J. Clancey
    • 1
  1. 1.Institute for Research on LearningPalo Alto

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