Intelligent tutoring systems by Bayesian networks with noisy gates

Alessandro Antonucci, Francesca Mangili, Claudio Bonesana, Giorgia Adorni
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Abstract

Directed graphical models such as Bayesian nets are often used to implement intelligent tutoring systems able to interact in real-time with learners in a purely automatic way. When coping with such models, keeping a bound on the number of parameters might be important for multiple reasons. First, as these models are typically based on expert knowledge, a huge number of parameters to elicit might discourage practitioners from adopting them. Moreover, the number of model parameters affects the complexity of the inferences, while a fast computation of the queries is needed for real-time feedback. We advocate logical gates with uncertainty for a compact parametrization of the conditional probability tables in the underlying Bayesian net used by tutoring systems. We discuss the semantics of the model parameters to elicit and the assumptions required to apply such approach in this domain. We also derive a dedicated inference scheme to speed up computations.
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带有噪声门的贝叶斯网络智能辅导系统
有向图模型(如贝叶斯网)通常用于实现智能辅导系统,该系统能够以纯粹自动的方式与学习者进行实时交互。在处理这类模型时,出于多种原因,对参数数量保持一定的限制可能很重要。首先,由于这些模型通常以专家知识为基础,如果要获取大量参数,可能会让从业者望而却步。此外,模型参数的数量会影响推论的复杂性,而实时反馈需要快速计算查询。我们提倡在辅导系统使用的底层贝叶斯网中,用不确定性逻辑门对条件概率表进行紧凑的参数化。我们讨论了模型参数的语义,以及在该领域应用这种方法所需的假设。我们还推导出一种专用推理方案,以加快计算速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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