实现自我调节学习策略的规范性分析:强化学习方法

IF 6.7 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Ikenna Osakwe, Guanliang Chen, Yizhou Fan, Mladen Rakovic, Shaveen Singh, Lyn Lim, Joep van der Graaf, Johanna Moore, Inge Molenaar, Maria Bannert, Alex Whitelock-Wainwright, Dragan Gašević
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引用次数: 0

摘要

自我调节学习(SRL)是实现学习目标的一项基本技能。对于在线学习环境(OLEs)来说尤其如此,因为与传统的课堂环境相比,在线学习环境的支持系统往往是有限的。同样,现有的研究也发现,学习者往往很难使自己的行为适应在线学习环境的自我调节要求。即便如此,现有的自律学习分析工具在学习过程中对学习者自律学习策略的实时或个性化支持方面的作用仍然有限。因此,我们探索了一种基于强化学习的方法,以学习特定学习任务的最佳自律学习策略。具体来说,我们利用 44 名参与者的 SRL 过程序列,以及他们在规定学习任务中的评估分数,在专用的开放式学习环境中开发基于长短期记忆(LSTM)网络的奖励函数。该函数用于训练强化学习代理,以便为学习任务找到 SRL 过程的最佳序列。我们的研究结果表明,所开发的代理能够有效地选择 SRL 过程,从而最大限度地实现规定的学习目标,具体衡量标准是预测的评估分数和预测的知识收益。这项工作的贡献将有助于开发一种能够实时检测次优 SRL 策略的工具,并实现以 SRL 为重点的个性化支架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Towards prescriptive analytics of self-regulated learning strategies: A reinforcement learning approach

Towards prescriptive analytics of self-regulated learning strategies: A reinforcement learning approach

Self-regulated learning (SRL) is an essential skill to achieve one's learning goals. This is particularly true for online learning environments (OLEs) where the support system is often limited compared to a traditional classroom setting. Likewise, existing research has found that learners often struggle to adapt their behaviour to the self-regulatory demands of OLEs. Even so, existing SRL analysis tools have limited utility for real-time or individualised support of a learner's SRL strategy during a study session. Accordingly, we explore a reinforcement learning based approach to learning optimal SRL strategies for a specific learning task. Specifically, we utilise the sequences of SRL processes acted by 44 participants, and their assessment scores for a prescribed learning task, in a purpose-built OLE to develop a long short-term memory (LSTM) network based reward function. This is used to train a reinforcement learning agent to find the optimal sequence of SRL processes for the learning task. Our findings indicate that the developed agents were able to effectively select SRL processes so as to maximise a prescribed learning goal as measured by predicted assessment score and predicted knowledge gains. The contributions of this work will facilitate the development of a tool which can detect sub-optimal SRL strategy in real-time and enable individualised SRL focused scaffolding.

Practitioner notes

What is already known about this topic

  • Learners often fail to adequately adapt their behavior to the self-regulatory demands of e-Learning environments.
  • In order to promote effective Self-regulated learning (SRL) capabilities, researchers and educators need tools that are able to analyze and diagnose a learner's SRL strategy use.
  • Current methods for SRL analysis are more often descriptive as opposed to prescriptive and have limited utility for real-time analysis or support of a learner's SRL behavior.

What this paper adds

  • This paper proposes the use of Reinforcement Learning for prescriptive analytics of SRL. We train a Reinforcement Learning agent on sequences of SRL processes acted by learners in order to learn the optimal SRL strategy for a given learning task.

Implications for practice and/or policy

  • Our work will facilitate the development of a tool which can detect sub-optimal SRL strategy in real-time and enable individualized SRL focused scaffolding.
  • The implications of our work can aid in course design by predicting the self-regulatory load imposed by a given task.
  • The ability to model SRL strategies using Reinforcement Learning can be extended to simulate or test SRL theories.
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来源期刊
British Journal of Educational Technology
British Journal of Educational Technology EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
15.60
自引率
4.50%
发文量
111
期刊介绍: BJET is a primary source for academics and professionals in the fields of digital educational and training technology throughout the world. The Journal is published by Wiley on behalf of The British Educational Research Association (BERA). It publishes theoretical perspectives, methodological developments and high quality empirical research that demonstrate whether and how applications of instructional/educational technology systems, networks, tools and resources lead to improvements in formal and non-formal education at all levels, from early years through to higher, technical and vocational education, professional development and corporate training.
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