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Utilizing Diagnosing Problems in a Probabilistic Domain to Build Student Models


Affiliations
1 Informatics Dept., Electronics Research Institute, Tahrir St., Giza, Egypt
2 Dept. of Computer Engineering, Cairo University, Giza, Egypt
 

In this paper we aim to estimate the differential student knowledge model in a probabilistic domain within an intelligent tutoring system. The student answers to questions requiring diagnosing skills are used to estimate the actual student model. Updating and verification of the model are conducted based on the matching between the student's and model answers. Two different approaches to updating are suggested, i) coarse and ii) refined model updating. Moreover, the effect of the order of which questions are presented to the student is investigated. Results suggest that the refined model, although takes more computational resources, provides a slightly better approximation of the student model. In addition, the accuracy of the algorithm is highly insensitive to the order of which the questions are presented, more so when using the refined model updating approach.

Keywords

Bayesian Networks, Abduction, Intelligent Tutoring System, Student Modelling.
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  • Utilizing Diagnosing Problems in a Probabilistic Domain to Build Student Models

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Authors

Nabila Khodeir
Informatics Dept., Electronics Research Institute, Tahrir St., Giza, Egypt
Nayer Wanas
Informatics Dept., Electronics Research Institute, Tahrir St., Giza, Egypt
Nevin Darwish
Dept. of Computer Engineering, Cairo University, Giza, Egypt
Nadia Hegazy
Informatics Dept., Electronics Research Institute, Tahrir St., Giza, Egypt

Abstract


In this paper we aim to estimate the differential student knowledge model in a probabilistic domain within an intelligent tutoring system. The student answers to questions requiring diagnosing skills are used to estimate the actual student model. Updating and verification of the model are conducted based on the matching between the student's and model answers. Two different approaches to updating are suggested, i) coarse and ii) refined model updating. Moreover, the effect of the order of which questions are presented to the student is investigated. Results suggest that the refined model, although takes more computational resources, provides a slightly better approximation of the student model. In addition, the accuracy of the algorithm is highly insensitive to the order of which the questions are presented, more so when using the refined model updating approach.

Keywords


Bayesian Networks, Abduction, Intelligent Tutoring System, Student Modelling.