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Hyperbolic Hypergraph Transformer With Knowledge State Disentanglement for Knowledge Tracing

计算机科学 变压器 追踪 超图 知识图 理论计算机科学 数据挖掘 人工智能 电气工程 程序设计语言 数学 离散数学 电压 工程类
作者
Jiawei Li,Shun Mao,Yixiu Qin,Feng Wang,Yuncheng Jiang
出处
期刊:IEEE Transactions on Knowledge and Data Engineering [IEEE Computer Society]
卷期号:37 (8): 4677-4690 被引量:2
标识
DOI:10.1109/tkde.2025.3570098
摘要

Knowledge Tracing (KT) refers to inferring the students' knowledge mastery and predicting their future performance. KT serves as the foundation for personalized learning and enhances the effectiveness of educational interventions, becoming a crucial technology in intelligent tutoring systems. Recent approaches have demonstrated notable success by harnessing the potent representational capacities of deep learning. However, complex neural networks lead to entangled knowledge state embeddings, where the embedding dimensions are coupled, limiting their expressiveness and interpretability. In addition, the limitations of existing methods in Euclidean space result in distortions when capturing complex relationships among knowledge states. This distortion manifests as the distance and geometric structures among knowledge states being deformed during the embedding process. To address the challenges, in this paper, we propose a hyperbolic hypergraph transformer with knowledge state Disentanglement for Knowledge Tracing, named DisenKT. We construct the students' response sequences into the hypergraph, projected into the hyperbolic space to alleviate the representation distortion problem of questions and knowledge states. The embeddings of hierarchical knowledge states are refined through message passing between questions and students based on the proposed hyperbolic hypergraph transformer. Moreover, we are the first to disentangle knowledge states via a contrastive clustering auxiliary task, which enhances the expressiveness and interpretability of knowledge state embeddings. Extensive experimental results on three public datasets demonstrate that DisenKT outperforms state-of-the-art methods on student performance prediction and interpretability.
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