Abstract
Student performance prediction is a fundamental task in online learning systems, which aims to provide students with access to active learning. Generally, student performance prediction is achieved by tracing the evolution of each student's knowledge states via a series of learning activities. Every learning activity record has two types of feature data: student behavior and exercise features. However, most methods use features that are related to exercises, such as correctness and concepts, while other student behavior features are usually ignored. The few studies that have focused on student behavior features through subjective manual selection argue that different student behavior features can be used in an equivalent manner to predict student performance. In this paper, we assume that the integration of student behavior features and exercise features is crucial to improve the precision of prediction, and each feature has a different impact on student performance. Therefore, this paper proposes a novel framework for student performance prediction by making full use of both student behavior features and exercise features and combining the attention mechanism with the knowledge tracing model. Specifically, we first exploit machine learning to capture feature representation automatically. Then, a fusion attention mechanism based on recurrent neural network architecture is used for student performance prediction. Extensive experiments on a real-world dataset show the effectiveness and practicability of our approach. The accuracy of our method is up to 98%, which is superior to previous methods.
Highlights
W ITH the growth of massive Internet-based educational resources, many online learning platforms have emerged, such as ASSISTments, Khan Academy and Massive Open Online Courses (MOOCs)
In response to the above issues, this paper proposes a novel multiple features fusion attention mechanism enhanced deep knowledge tracing (MFA-Deep knowledge tracing (DKT)) framework that makes full use of both student behavior features and exercise features
FRAMEWORK To enhance deep knowledge tracing for student performance prediction, this paper proposes a novel MFA-DKT framework
Summary
W ITH the growth of massive Internet-based educational resources, many online learning platforms have emerged, such as ASSISTments, Khan Academy and Massive Open Online Courses (MOOCs). It is worth mentioning that Zhang et al proposed the extension of the DKT model, which first explored the inclusion of a few features (such as students’ response time, attempt numbers and first actions) to improve its accuracy [8] Despite their achievements, there are limitations in this work regarding the manual selection of features from subjective perceptions. In the student performance prediction stage, combining the attention mechanism to assign different weights to features and retain more important information over time. In this way, the MFA-DKT framework can naturally predict student performance based on their learning activity records. The fifth part summarizes our work and discusses further work to be addressed in the future
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