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Broader and deeper: a multi-features with latent relations BERT knowledge tracing model

Broader and deeper: a multi-features with latent relations BERT knowledge tracing model
Broader and deeper: a multi-features with latent relations BERT knowledge tracing model
Knowledge tracing aims to estimate students’ knowledge state or skill mastering level over time, which is evolving into an essential task in educational technology. Traditional knowledge tracing algorithms generally use one or a few features to predict students’ behaviour and do not consider the latent relations between these features, which could be limiting and disregarding important information in the features. In this paper, we propose MLFBK: A Multi-Features with Latent Relations BERT Knowledge Tracing model, which is a novel BERT based Knowledge Tracing approach that utilises multiple features and mines latent relations between features to improve the performance of the Knowledge Tracing model. Specifically, our algorithm leverages four data features (student_id, skill_id, item_id, and response_id, as well as three meaningful latent relations among features to improve the performance: individual skill mastery, ability profile of students (learning transfer across skills), and problem difficulty. By incorporating these explicit features, latent relations, and the strength of the BERT model, we achieve higher accuracy and efficiency in knowledge tracing tasks. We use t-SNE as a visualisation tool to analyse different embedding strategies. Moreover, we conduct ablation studies and activation function evaluation to evaluate our model. Experimental results demonstrate that our algorithm outperforms baseline methods and demonstrates good interpretability.
0302-9743
183-197
Springer Cham
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Jacobsen, Mark
fbc53c9d-28b1-40d0-99aa-c533c476eb67
Shi, Lei
f1a82e79-8ed6-43d9-8d49-2b05437cc502
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed
Wang, Jindi
64350549-9e22-4474-a609-bb88cb328e04
Viberg, Olga
Jivet, Ioana
Muñoz-Merino, Pedro J.
Perifanou, Maria
Papathoma, Tina
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Jacobsen, Mark
fbc53c9d-28b1-40d0-99aa-c533c476eb67
Shi, Lei
f1a82e79-8ed6-43d9-8d49-2b05437cc502
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed
Wang, Jindi
64350549-9e22-4474-a609-bb88cb328e04
Viberg, Olga
Jivet, Ioana
Muñoz-Merino, Pedro J.
Perifanou, Maria
Papathoma, Tina

Li, Zhaoxing, Jacobsen, Mark, Shi, Lei, Zhou, Yunzhan and Wang, Jindi (2023) Broader and deeper: a multi-features with latent relations BERT knowledge tracing model. Viberg, Olga, Jivet, Ioana, Muñoz-Merino, Pedro J., Perifanou, Maria and Papathoma, Tina (eds.) In Responsive and Sustainable Educational Futures: 18th European Conference on Technology Enhanced Learning, EC-TEL 2023, Aveiro, Portugal, September 4–8, 2023, Proceedings. vol. 14200, Springer Cham. pp. 183-197 . (doi:10.1007/978-3-031-42682-7_13).

Record type: Conference or Workshop Item (Paper)

Abstract

Knowledge tracing aims to estimate students’ knowledge state or skill mastering level over time, which is evolving into an essential task in educational technology. Traditional knowledge tracing algorithms generally use one or a few features to predict students’ behaviour and do not consider the latent relations between these features, which could be limiting and disregarding important information in the features. In this paper, we propose MLFBK: A Multi-Features with Latent Relations BERT Knowledge Tracing model, which is a novel BERT based Knowledge Tracing approach that utilises multiple features and mines latent relations between features to improve the performance of the Knowledge Tracing model. Specifically, our algorithm leverages four data features (student_id, skill_id, item_id, and response_id, as well as three meaningful latent relations among features to improve the performance: individual skill mastery, ability profile of students (learning transfer across skills), and problem difficulty. By incorporating these explicit features, latent relations, and the strength of the BERT model, we achieve higher accuracy and efficiency in knowledge tracing tasks. We use t-SNE as a visualisation tool to analyse different embedding strategies. Moreover, we conduct ablation studies and activation function evaluation to evaluate our model. Experimental results demonstrate that our algorithm outperforms baseline methods and demonstrates good interpretability.

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e-pub ahead of print date: 29 August 2023
Published date: 30 August 2023
Learn more about Agents, Interactions and Complexity research

Identifiers

Local EPrints ID: 487318
URI: http://eprints.soton.ac.uk/id/eprint/487318
DOI: doi:10.1007/978-3-031-42682-7_13
ISSN: 0302-9743
PURE UUID: 2a041d31-9c9c-497a-82f6-1118191d8dbf
ORCID for Zhaoxing Li: ORCID iD orcid.org/0000-0003-3560-3461

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Date deposited: 16 Feb 2024 17:27
Last modified: 18 Mar 2024 04:17

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Contributors

Author: Zhaoxing Li ORCID iD
Author: Mark Jacobsen
Author: Lei Shi
Author: Yunzhan Zhou
Author: Jindi Wang
Editor: Olga Viberg
Editor: Ioana Jivet
Editor: Pedro J. Muñoz-Merino
Editor: Maria Perifanou
Editor: Tina Papathoma

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