Extending Deep Knowledge Tracing: Inferring Interpretable Knowledge and Predicting PostSystem Performance

Authors

  • Richard SCRUGGS Graduate School of Education, University of Pennsylvania, United States Author
  • Ryan S. BAKER Graduate School of Education, University of Pennsylvania, United States Author
  • Bruce M. MCLAREN Human-Computer Interaction Institute, Carnegie Mellon University, United States Author

Abstract

Recent student knowledge modeling algorithms such as Deep Knowledge Tracing (DKT) and Dynamic Key-Value Memory Networks (DKVMN) have been shown to produce accurate predictions of problem correctness within the same learning system. However, these algorithms do not attempt to directly infer student knowledge. In this paper we present an extension to these algorithms to also infer knowledge. We apply this extension to DKT and DKVMN, resulting in knowledge estimates that correlate better with a posttest than knowledge estimates from Bayesian Knowledge Tracing (BKT), an algorithm designed to infer knowledge, and another classic algorithm, Performance Factors Analysis (PFA). We also apply our extension to correctness predictions from BKT and PFA, finding that knowledge estimates produced with it correlate better with the posttest than BKT and PFA’s standard knowledge estimates. These findings are significant since the primary aim of education is to prepare students for later experiences outside of the immediate learning activity.

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Published

2020-11-23

Conference Proceedings Volume

2020: ICCE 2020: The 28th International Conference on Computers in Education

Section

Articles

How to Cite

Extending Deep Knowledge Tracing: Inferring Interpretable Knowledge and Predicting PostSystem Performance. (2020). International Conference on Computers in Education, 195-204. https://library.apsce.net/index.php/ICCE/article/view/3921