A Deep Autoencoder-Based Hybrid Recommender System
Author:
Bougteb Yahya1ORCID, Ouhbi Brahim1, Frikh Bouchra2, Zemmouri Elmoukhtar3ORCID
Affiliation:
1. LM2I Laboratory, ENSAM, Moulay Ismail University, Morocco 2. École Nationale des Sciences Appliquées de Fès, Morocco 3. ENSAM, Moulay Ismail University, Morocco
Abstract
Recommender systems build their suggestions on rating data, given explicitly or implicitly by users on items. These ratings create a huge sparse user-item rating matrix which opens two challenges for researchers on the field. The first challenge is the sparsity of the rating matrix and the second one is the scalability of the data. This article proposes a hybrid recommender system based on deep autoencoder to learn the user interests and reconstruct the missing ratings. Then, SVD++ decomposition is employed, in parallel, to hold information of correlation between different features factors. Additionally, the authors gave a deep analysis of the top-N recommender list from the user's perspective to ensure that the proposed model can be used for practical application. Experiments showed that the proposed model performed better with high-dimensional datasets, and outperformed various hybrid algorithms in terms of RMSE, MAE, and in terms of the final top-N recommendation list.
Subject
Computer Networks and Communications
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