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引用次数: 0
摘要
在教育领域,认知诊断对于实现个性化学习至关重要。被广泛采用的 DINA(确定性输入、噪声和门)模型能发现学生对正确回答问题所需的基本技能的掌握情况。然而,现有的基于 DINA 的方法忽略了知识点之间的依赖关系,而且其模型训练过程对于大型数据集而言计算效率低下。在本文中,我们提出了一种新的认知诊断模型,称为 BNMI-DINA,即基于贝叶斯网络的多进程增量式 DINA。我们提出的模型旨在通过对学生的认知能力进行准确而详细的评估,来提高个性化学习的效果。通过结合贝叶斯网络,BNMI-DINA 建立了知识点之间的依赖关系,从而能够更准确地评估学生的掌握程度。为了提高模型的收敛速度,我们对算法的关键步骤进行了并行化处理。我们还提供了 BNMI-DINA 收敛性的理论证明。广泛的实验证明,与最先进的认知诊断模型相比,我们的方法有效地提高了模型的准确性,并缩短了计算时间。
BNMI-DINA: A Bayesian Cognitive Diagnosis Model for Enhanced Personalized Learning
In the field of education, cognitive diagnosis is crucial for achieving personalized learning. The widely adopted DINA (Deterministic Inputs, Noisy And gate) model uncovers students’ mastery of essential skills necessary to answer questions correctly. However, existing DINA-based approaches overlook the dependency between knowledge points, and their model training process is computationally inefficient for large datasets. In this paper, we propose a new cognitive diagnosis model called BNMI-DINA, which stands for Bayesian Network-based Multiprocess Incremental DINA. Our proposed model aims to enhance personalized learning by providing accurate and detailed assessments of students’ cognitive abilities. By incorporating a Bayesian network, BNMI-DINA establishes the dependency relationship between knowledge points, enabling more accurate evaluations of students’ mastery levels. To enhance model convergence speed, key steps of our proposed algorithm are parallelized. We also provide theoretical proof of the convergence of BNMI-DINA. Extensive experiments demonstrate that our approach effectively enhances model accuracy and reduces computational time compared to state-of-the-art cognitive diagnosis models.
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