Computer Science

Computer Science ›› 2026, Vol. 53 ›› Issue (2): 78-88.doi: 10.11896/jsjkx.250700188

• Educational Data Mining Based on Graph Machine Learning • Previous Articles     Next Articles

GTKT:Knowledge Tracing Model Integrating Connectivism Learning and Multi-layer TemporalGraph Transformer

LI Jiahao1, JING Junchang1, XU Qian1, LIU Dong1,2   

  1. 1 School of Computer andInformation Engineering,Henan Normal University,Xinxiang,Henan 453007,China
    2 Key Laboratory of Educational Artificial Intelligence and Personalized Learning of Henan Province,Xinxiang,Henan 453007,China
  • Received:2025-07-30 Revised:2025-10-25 Published:2026-02-10
  • About author:LI Jiahao,born in 1999,postgraduate.His main research interests include big data in education and knowledge tra-cing.
    LIU Dong,born in 1976.Ph.D,professor,Ph.D supervisor,is a senior member of CCF(No.21678S).His main research interests include big data mining in education,social network analysis,etc.
  • Supported by:
    National Natural Science Foundation of China(62072160).

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Abstract: Knowledge Tracing(KT) aims to model learners’ knowledge states based on their historical exercise records and predict their future performance.Traditional KT research primarily focuses on modeling learners’ behavioral sequences while overlooking the topological structure among knowledge concepts.Although recent methods using static knowledge graphs have shown progress,they fail to adequately capture the dynamic graph-structured relationships among learners,questions,and knowledge concepts,thereby ignoring potential correlations in the knowledge acquisition process and limiting model generalizability and interpretability.To address these limitations,this paper proposes a Graph Transformer Knowledge Tracing(GTKT) model that integrates connectivism learning theory with a multi-layer temporal graph Transformer.Firstly,guided by connectivism learning theory,it constructs temporal learner subgraphs to represent historical exercise sequences,proposing a time-aware hierarchical subgraph sampling strategy and a neighbor co-occurrence encoder to discover latent node relationships.Secondly,based on lear-ning and forgetting theories,it designs a multi-band temporal encoder to capture temporal characteristics in learning behaviors and builds a multi-feature fusion module integrating learner-question-knowledge concepts interactions.Thirdly,it develops a multi-layer temporal graph Transformer module for dynamic knowledge state modeling and prediction.Experimental results on six public datasets demonstrate that GTKT outperforms mainstream knowledge tracing models in predicting learner performance.

Key words: Knowledge tracing, Connectivism learning, Educational theory, Graph Transformer, Multi-features fusion

CLC Number: 

  • TP391.6
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