Abstract
Recently, the worldwide COVID-19 pandemic has led to an increasing demand for online education platforms. However, it is challenging to correctly choose course content from among many online education resources due to the differences in users’ knowledge structures. Therefore, a course recommender system has the essential role of improving the learning efficiency of users. At present, many online education platforms have built diverse recommender systems that utilize traditional data mining methods, such as Collaborative Filtering (CF). Despite the development and contributions of many recommender systems based on CF, diverse deep learning models for personalized recommendation are being studied because of problems such as sparsity and scalability. Therefore, to solve traditional recommendation problems, this study proposes a novel deep learning-based course recommender system (DECOR), which elaborately captures high-level user behaviors and course attribute features. The DECOR model can reduce information overload, solve high-dimensional data sparsity problems, and achieve high feature information extraction performance. We perform several experiments utilizing real-world datasets to evaluate the DECOR model’s performance compared with that of traditional recommendation approaches. The experimental results indicate that the DECOR model offers better and more robust recommendation performance than the traditional methods.
Highlights
The development of internet technology has increased the available amounts of several types of data and has resulted in an information overload problem [1,2]
The results showed that the performances of DeepICF methods are superior to those of traditional item-based Collaborative Filtering (CF) approaches
The results showed that the new collaborative deep filtering method outperforms the previous YouTube recommender system, which was implemented using the MF approach
Summary
The development of internet technology has increased the available amounts of several types of data and has resulted in an information overload problem [1,2]. The range of courserelated information available to users is increasing rapidly [6]. Several studies show that users face difficult situational problems due to the large amount of information available when choosing a course on an online education website [7,8]. This selection process is challenging and time-consuming when choosing their preferred course on such websites
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