Improving rating predictions with time-varying attention and dual-optimizer.

Due to the rapid expansion of online platforms, review-based recommender systems have become the standard way to determine consumers' preferences for various goods. The purpose of this study is to address three significant issues with review-based approaches. First, these techniques suffer from a class-imbalance problem, where rating levels with lower proportions are partially neglected. As a result, their rating performance for such rare levels is unsatisfactory. To address this drawback, this paper proposes a flexible dual-optimizer network that enhances performance by utilizing classification and regression losses in the first attempt to solve this problem. Second, the typical review-based approach of preprocessing review texts with word embeddings will result in inadequate contextual information extraction. Thus, the bidirectional encoder representations from the transformers (BERT) method is introduced as the preprocessing technique to fully extract semantic information. Third, existing techniques make recommendations without considering that the user preferences may change over time. We suggest a time-varying feature extraction scheme that includes a multiscale convolutional neural network and bidirectional long short-term memory to solve this problem. We then develop an interactive component that summarizes the contextual information associated with the user-item pairings. The efficiency of the proposed time-varying attention with dual-optimizer (TADO) model is demonstrated through extensive tests on 12 benchmark datasets derived from Amazon Product Reviews. Regarding the existing state-of-the-art techniques, the proposed model attains a substantial performance increase of 22.69%, 8.75%, and 17.35%, respectively, over the Aspect-aware Latent Factor Model (ALFM), Multi-Pointer Co-Attention Networks for recommendation (MPCN), and Aspect-based Neural Recommender (ANR). Moreover, an ablation study demonstrates the importance of jointly employing the components developed for TADO. [ABSTRACT FROM AUTHOR]