Makatchev, M., Jordan, P. W., & VanLehn, K. (2004). Modeling student’s reasoning about qualitative physics: Heuristics for abductive proof search. In J. C.  Lester, R. M. Vicari, & F. Paraguacu, (Eds.), 7th Conference on Intelligent Tutoring Systems (pp. 699-709).  Springer-Verlag Berlin Heidelberg.

We describe a theorem prover that is used in the Why2- Atlas tutoring system for the purposes of evaluating the correctness of a student’s essay and for guiding feedback to the student. The weighted abduction framework of the prover is augmented with various heuristics to assist in searching for a proof that maximizes measures of utility and plausibility. We focus on two new heuristics we added to the theorem prover: (a) a specificity-based cost for assuming an atom, and (b) a rule choice preference that is based on the similarity between the graph of cross-references between the propositions in a candidate rule and the graph of cross-references between the set of goals. The two heuristics are relevant to any abduction framework and knowledge representation that allow for a metric of specificity for a proposition and cross-referencing of propositions via shared variables.

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