Koedinger, K., Suthers, D., and Forbus, K. Componentbased Construction of a Science Learning Space. International Journal of Artificial Intelligence in Education, 1999, 10: 292313. Available: http://cbl.leeds.ac.uk/ijaied/home.html  Home/Search   Document Details and Download   Summary   Related Articles   Check

....afterwards. This is a powerful foundation for intelligent tutoring, but, unlike ALI, self explanatory simulators have no explicit pedagogical objectives to drive the dialogue. Recent work has explored an ambitious combination of such simulators with tutoring components for scientific inquiry [8], but only as a proof of concept; no general integration has been done. Other interactive simulators have been integrated with a tutorial dialogue (e.g. 11, 13, 18] but those dialogues focus on teaching procedures for operating and maintaining physical systems, not scientific inquiry for ....

Kenneth R. Koedinger, Daniel D. Suthers, and Kenneth D. Forbus. Component-based construction of a science learning space. International Journal of Artificial Intelligence in Education, 10:292--313, 1999.

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Koedinger, K., Suthers, D., and Forbus, K. Componentbased Construction of a Science Learning Space. International Journal of Artificial Intelligence in Education, 1999, 10: 292313. Available: http://cbl.leeds.ac.uk/ijaied/home.html

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Koedinger, K., Suthers, D., and Forbus, K. Componentbased Construction of a Science Learning Space. International Journal of Artificial Intelligence in Education, 1999, 10: 292313. Available: http://cbl.leeds.ac.uk/ijaied/home.html

....being developed to describe learning objects [5] and to facilitate the interoperability of these objects once they are found [3] This work is concerned primarily with standards for describing learning objects so that they may be found. Software interoperability has been addressed elsewhere (e.g. [2, 6]) Standards for describing learning objects also address economic issues surrounding resource databases because databases are expensive to build. Rather than replicate existing meta data, it is preferable to access existing meta data repositories. However, this requires standard forms for ....

Koedinger, K., Suthers, D., and Forbus, K. (1999). Component-based Construction of a Science Learning Space. International Journal of Artificial Intelligence in Education (1999), 10, 292-313. (Also available at http://cbl.leeds.ac.uk/ijaied/home.html)

....is computermediated, such spaces provide additional opportunities for software based coaching and assessment of student progress. In collaboration with Ken Koedinger and Dan Suthers, we have explored the use of Active Illustrations in Science Learning Spaces that support reflection and coaching (Koedinger et al. 1999). In addition to providing preconstructed virtual artifacts, efforts are underway to develop a construction kit approach to enable students to significantly modify existing objects, and even create new designs (Erignac, 2000) With the exception of on line construction kits, the research ....

Koedinger, K. R., Suthers, D. D., & Forbus, K. D. (1999). Component-based construction of a science learning space International Journal of Artificial Intelligence in Education, 10, 292-313.

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Koedinger, K.R., Suthers, D.D., & Forbus, K.D. (1998). Component-based construction of a science learning space. In B.R. Goettl, H.M. Halff, C.L. Redfield and V.J. Shute (Eds.), Lecture Notes in Computer Science, 1452 (pp. 166-175). New York: Springer-Verlag.

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Koedinger, K., Suthers, D., and Forbus, K. Component-based Construction of a Science Learning Space, International Journal of Artificial Intelligence in Education 10 (1999).

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