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- Title
AE-MCCF: An Autoencoder-Based Multi-criteria Recommendation Algorithm.
- Authors
Batmaz, Zeynep; Kaleli, Cihan
- Abstract
Recommender systems enable users to deal with the information overload problem by serving personalized predictions. Traditional recommendation techniques produce referrals for users by considering their overall opinions over items. On the other hand, users may consider several criteria while evaluating an item. Even though overall rating-based evaluations are sufficient for interpreting e-commerce products, they may be less effective for evaluating services provided by hotels, restaurants, etc. Accordingly, multi-criteria-based collaborative filtering systems are introduced to increase the level of personalization. These recommender systems are relatively new extension of traditional collaborative filtering systems, and they utilize multi-criteria-based user preferences provided by individuals considering several aspects of services. There are several studies related to such recommender systems, and according to their results, it is possible to produce more personalized predictions along with accuracy improvement by employing multi-criteria recommender systems. Deep learning techniques employed in many research areas such as pattern recognition and image processing have recently been used frequently in the field of recommender systems. The studies show that deep learning-based approaches can improve the accuracy of the referrals due to their high capability of extracting out nonlinear relations between users and items. Therefore, in order to nonlinearly represent relations among users in terms of multi-criteria preferences, we propose a new multi-criteria collaborative filtering algorithm based on autoencoders. Our empirical results show that the proposed method enhances accuracy levels of produced predictions compared with the state-of-the-art algorithms.
- Subjects
FILTERING software; RECOMMENDER systems; DEEP learning; INFORMATION overload; PATTERN recognition systems; IMAGE recognition (Computer vision); IMAGE processing
- Publication
Arabian Journal for Science & Engineering (Springer Science & Business Media B.V. ), 2019, Vol 44, Issue 11, p9235
- ISSN
2193-567X
- Publication type
Article
- DOI
10.1007/s13369-019-03946-z