Knowledge Concept Recommendation Model for MOOCs with Local Sub-graph Embedding
Massive open online courses (MOOCs) play a crucial role in modern education by providing users with largescale open online learning platforms. Substantial research has been conducted to reduce user learning blindness and improve user experience, particularly in personalized course recommendations ba...
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| Published in | 2022 International Conference on Automation, Robotics and Computer Engineering (ICARCE) pp. 1 - 8 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
16.12.2022
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Massive open online courses (MOOCs) play a crucial role in modern education by providing users with largescale open online learning platforms. Substantial research has been conducted to reduce user learning blindness and improve user experience, particularly in personalized course recommendations based on graph neural networks. However, these efforts have focused primarily on fixed or homogeneous graphs, are vulnerable to data sparsity problems, and are difficult to scale. This study proposes to overcome this limitation using graph convolution on local subgraphs combined with an extended matrix factorization model. First, the proposed method decomposes the heterogeneous graph into multiple meta-path-based subgraphs and combines random wandering sampling methods to capture complex semantic relationships between entities while sampling nodes' influence-rich neighborhoods. Next, the attention mechanism adaptively fuses the contextual information of different subgraphs for a more comprehensive construction of user preferences. Experiments on publicly available MOOCs datasets reveal that the proposed model outperforms other benchmark models and is highly scalable while alleviating the data sparsity problem. |
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| AbstractList | Massive open online courses (MOOCs) play a crucial role in modern education by providing users with largescale open online learning platforms. Substantial research has been conducted to reduce user learning blindness and improve user experience, particularly in personalized course recommendations based on graph neural networks. However, these efforts have focused primarily on fixed or homogeneous graphs, are vulnerable to data sparsity problems, and are difficult to scale. This study proposes to overcome this limitation using graph convolution on local subgraphs combined with an extended matrix factorization model. First, the proposed method decomposes the heterogeneous graph into multiple meta-path-based subgraphs and combines random wandering sampling methods to capture complex semantic relationships between entities while sampling nodes' influence-rich neighborhoods. Next, the attention mechanism adaptively fuses the contextual information of different subgraphs for a more comprehensive construction of user preferences. Experiments on publicly available MOOCs datasets reveal that the proposed model outperforms other benchmark models and is highly scalable while alleviating the data sparsity problem. |
| Author | Ju, ChengCheng Zhu, Yi Wang, ChenYu |
| Author_xml | – sequence: 1 givenname: ChengCheng surname: Ju fullname: Ju, ChengCheng organization: Jiangsu Normal University,Department of Computer Science and Technology,Xuzhou,China – sequence: 2 givenname: Yi surname: Zhu fullname: Zhu, Yi email: zhuy@jsnu.edu.cn organization: Jiangsu Normal University,Department of Computer Science and Technology,Xuzhou,China – sequence: 3 givenname: ChenYu surname: Wang fullname: Wang, ChenYu organization: Jiangsu Normal University,Department of Computer Science and Technology,Xuzhou,China |
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| Snippet | Massive open online courses (MOOCs) play a crucial role in modern education by providing users with largescale open online learning platforms. Substantial... |
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| SubjectTerms | graph convolution graph neural networks massive open online courses matrix factorization meta-path-based subgraphs personalized course recommendations |
| Title | Knowledge Concept Recommendation Model for MOOCs with Local Sub-graph Embedding |
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