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References
[1] A. Orthony and G.L. Clore and A. Collins. The cognitive structure of emotions. Cambridge
University Press, Cambridge, England, 1988.
[2] C. Conati. Modeling Users’ Emotions to Improve Learning with Educational Games. In
Proceedings of the 2001 AAAI Fall Symposium Intelligent and Emotional Agents II, pages
31–36. AAAI Press, Menlo Park, U.S.A.
[3] C. Conati and A. Gertner and K. VanLehn and M. Druzdzel. On-line student modeling
for coached problem solving using Bayesian networks. In A. Jameson et al., editor, User
Modeling: Proc. Sixth Int. Conf., UM97, pages 231–242. Springer, New York, 1997.
[4] C. Conati and J. Fain Lehman. EFH-Soar: Modeling education in highly interactive
microworlds. In Lecture Notes in Artificial Intelligence, pages 47–58. Springer-Verlag,
New York, 1993.
[5] C. Murray and K. VanLehn. DT Tutor: A decision-theoretic dynamic approach for optimal
selection of tutorial actions. In Lecture Notes in Computer Science: Intelligent Tutoring
Systems, 5th International Conference, pages 153–162. Springer, 2000.
[6] C. Conati and K. VanLehn. Toward Computer-Based Support of Meta-Cognitive Skills: a
Computational Framework to Coach Self-Explanation. International Journal of Artificial
Intelligence in Education, 11(4):289–415, 2000.
[7] C. Conati and K. VanLehn. Providing adaptive support to the understanding of instruc-
tional material. In Proceedings of IUI 2001, International Conference on Intelligent User
Interfaces, Santa Fe, New Mexico, USA, pages 41–48. ACM Press, 2001.
[8] E. Horvitz. Principles of mixed initiative interaction. In CHI ’99, ACM SIGCHI Conf. on
Human Factors in Computing Systems., Pbgh, Pa, pages 159–166. ACM Press, 1999.
[9] M. Henrion, J. Breeze, and E. Horvitz. Decision Analysis and Expert Systems. AI
Magazine, Winter ’91:64–91, 1991.
[10] J. Pearl. Probabilistic Reasoning in Intelligent Systems: Networks of Plausible Inference.
Morgan Kaufmann, San Mateo, California, 1988.
[11] A. Jameson. Numerical uncertainty management in user and student modeling: An
overview of systems and issues. User Modeling and User-Adapted Int., 5:193–251, 1995.
[12] M. Klawe. When Does The Use Of Computer Games And Other Interactive Multime-
dia Software Help Students Learn Mathematics? In NCTM Standards 2000 Technology
Conference, Arlington, VA, 1998.
[13] M. Singley and P. Fairwater. Team Tutoring Systems: Reifying Roles in Problem Solving.
In C. Hoadley and J. Roschelle, editor, CSCL ’99, Stanford, California, pages 538–549.
Lawrence Erlbaum Associates, Hillsdale, NJ, 1999.
[14] P. Dillenbourg and M. Baker and A. Blaye and C. O’ Malley. The evolution of research
on collaborative learning. In E. Spada and P. Reiman, editors, Learning in Humans and
Machine: Towards an interdisciplinary learning science, pages 189–211. 1996.
[15] R. Picard. Affective Computing. M.I.T. Press, Cambridge, Massachusetts, 1997.
[16] V. J. Shute. A comparison of learning environments: All that glitters... In S.P.L. and S.J.
Derry, editor, Computers as Cognitive Tools, pages 47–73. LEA, Hillsdale, NJ, 1993.
[17] W. L. Johnson and J.W. Rickel and J.C. Lester. Animated Pedagogical Agents: Face-to-
Face Interaction in Interactive Learning Environments. International Journal of Artificial
Intelligence in Education, 11:47–78, 2000.
