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Sim-GAIL: a generative adversarial imitation learning approach of student modelling for intelligent tutoring systems

Sim-GAIL: a generative adversarial imitation learning approach of student modelling for intelligent tutoring systems
Sim-GAIL: a generative adversarial imitation learning approach of student modelling for intelligent tutoring systems
The continuous application of artificial intelligence (AI) technologies in online education has led to significant progress, especially in the field of Intelligent Tutoring Systems (ITS), online courses and learning management systems (LMS). An important research direction of the field is to provide students with customised learning trajectories via student modelling. Previous studies have shown that customisation of learning trajectories could effectively improve students’ learning experiences and outcomes. However, training an ITS that can customise students’ learning trajectories suffers from cold-start, time-consumption, human labour-intensity, and cost problems. One feasible approach is to simulate real students’ behaviour trajectories through algorithms, to generate data that could be used to train the ITS. Nonetheless, implementing high-accuracy student modelling methods that effectively address these issues remains an ongoing challenge. Traditional simulation methods, in particular, encounter difficulties in ensuring the quality and diversity of the generated data, thereby limiting their capacity to provide intelligent tutoring systems (ITS) with high-fidelity and diverse training data. We thus propose Sim-GAIL, a novel student modelling method based on generative adversarial imitation learning (GAIL). To the best of our knowledge, it is the first method using GAIL to address the challenge of lacking training data, resulting from the issues mentioned above. We analyse and compare the performance of Sim-GAIL with two traditional Reinforcement Learning-based and Imitation Learning-based methods using action distribution evaluation, cumulative reward evaluation, and offline-policy evaluation. The experiments demonstrate that our method outperforms traditional ones on most metrics. Moreover, we apply our method to a domain plagued by the cold-start problem, knowledge tracing (KT), and the results show that our novel method could effectively improve the KT model’s prediction accuracy in a cold-start scenario.
0941-0643
24369–24388
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Shi, Lei
3e73da43-5e7e-4544-a327-9de0046edfa2
Wang, Jindi
64350549-9e22-4474-a609-bb88cb328e04
Cristea, Alexandra I.
e49d8136-3747-4a01-8fde-694151b7d718
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed
Li, Zhaoxing
65935c45-a640-496c-98b8-43bed39e1850
Shi, Lei
3e73da43-5e7e-4544-a327-9de0046edfa2
Wang, Jindi
64350549-9e22-4474-a609-bb88cb328e04
Cristea, Alexandra I.
e49d8136-3747-4a01-8fde-694151b7d718
Zhou, Yunzhan
cb03860e-5494-4839-8857-6f622d4e8aed

Li, Zhaoxing, Shi, Lei, Wang, Jindi, Cristea, Alexandra I. and Zhou, Yunzhan (2023) Sim-GAIL: a generative adversarial imitation learning approach of student modelling for intelligent tutoring systems. Neural Computing and Applications, 35, 24369–24388. (doi:10.1007/s00521-023-08989-w).

Record type: Article

Abstract

The continuous application of artificial intelligence (AI) technologies in online education has led to significant progress, especially in the field of Intelligent Tutoring Systems (ITS), online courses and learning management systems (LMS). An important research direction of the field is to provide students with customised learning trajectories via student modelling. Previous studies have shown that customisation of learning trajectories could effectively improve students’ learning experiences and outcomes. However, training an ITS that can customise students’ learning trajectories suffers from cold-start, time-consumption, human labour-intensity, and cost problems. One feasible approach is to simulate real students’ behaviour trajectories through algorithms, to generate data that could be used to train the ITS. Nonetheless, implementing high-accuracy student modelling methods that effectively address these issues remains an ongoing challenge. Traditional simulation methods, in particular, encounter difficulties in ensuring the quality and diversity of the generated data, thereby limiting their capacity to provide intelligent tutoring systems (ITS) with high-fidelity and diverse training data. We thus propose Sim-GAIL, a novel student modelling method based on generative adversarial imitation learning (GAIL). To the best of our knowledge, it is the first method using GAIL to address the challenge of lacking training data, resulting from the issues mentioned above. We analyse and compare the performance of Sim-GAIL with two traditional Reinforcement Learning-based and Imitation Learning-based methods using action distribution evaluation, cumulative reward evaluation, and offline-policy evaluation. The experiments demonstrate that our method outperforms traditional ones on most metrics. Moreover, we apply our method to a domain plagued by the cold-start problem, knowledge tracing (KT), and the results show that our novel method could effectively improve the KT model’s prediction accuracy in a cold-start scenario.

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Accepted/In Press date: 22 August 2023
Published date: 3 October 2023

Identifiers

Local EPrints ID: 486482
URI: http://eprints.soton.ac.uk/id/eprint/486482
ISSN: 0941-0643
PURE UUID: b1f8353f-6ea7-47d9-958d-fe6d930bd8c4
ORCID for Zhaoxing Li: ORCID iD orcid.org/0000-0003-3560-3461

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Date deposited: 24 Jan 2024 17:35
Last modified: 17 Aug 2024 02:17

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Contributors

Author: Zhaoxing Li ORCID iD
Author: Lei Shi
Author: Jindi Wang
Author: Alexandra I. Cristea
Author: Yunzhan Zhou

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