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Problem-based learning (PBL) is becoming increasingly popular in medical education as a means of equipping students with the required clinical reasoning skills. Howeverfaculty time is costlymay not be sufficiently available for PBL sessions that demand greater focus and attention from faculty personnel. Intelligent tutoring systems offer a cost effective and viable alternative in helping to train students in the relevant problem domain. Like other knowledge-based systems, intelligent tutoring systems also suffer from issues such as knowledge acquisition bottleneck, limited scope of problem representation and brittleness in understanding and evaluating system input. The objective of this work is to design a tutoring system for medical PBL, which is less burdensome in acquiring system knowledge, provides students with a broad scope of solution representation and is robust in its evaluation of student solutions. We propose the use of the widely available and broad Unified Medical Language System (UMLS), together with strong rule-based methods and weak inference methods to build a tutoring system prototype.
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