Journal
ACM TRANSACTIONS ON INFORMATION SYSTEMS
Volume 38, Issue 1, Pages -Publisher
ASSOC COMPUTING MACHINERY
DOI: 10.1145/3372338
Keywords
Auxiliary feedback; eALS; implicit feedback; item recommendation; matrix factorization
Categories
Funding
- National Key Research and Development Program of China [SQ2018YFB180012]
- National Nature Science Foundation of China [61971267, 61972223, 61861136003, 61621091]
- Beijing Natural Science Foundation [L182038]
- Beijing National Research Center for Information Science and Technology [20031887521]
- Tsinghua University Tencent Joint Laboratory for Internet Innovation Technology
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Most existing recommender systems leverage the primary feedback only, despite the fact that users also generate a large amount of auxiliary feedback. These feedback usually indicate different user preferences when comparing to the primary feedback directly used to optimize the system performance. For example, in E-commerce sites, view data is easily accessible, which provides a valuable yet weaker signal than the primary feedback of purchase. In this work, we improve implicit feedback-based recommender systems (dubbed Implicit Recommender Systems) by integrating auxiliary view data into matrix factorization (MF). To exploit different preference levels, we propose both pointwise and pairwise models in terms of how to leverage users' viewing behaviors. The latter model learns the pairwise ranking relations among purchased, viewed, and non-viewed interactions, being more effective and flexible than the former pointwise MF method. However, such a pairwise formulation poses a computational efficiency problem in learning the model. To address this problem, we design a new learning algorithm based on the element-wise Alternating Least Squares (eALS) learner. Notably, our designed algorithm can efficiently learn model parameters from the whole user-item matrix (including all missing data), with a rather low time complexity that is dependent on the observed data only. Extensive experiments on two real-world datasets demonstrate that our method outperforms several state-of-the-art MF methods by 6.43%similar to 6.75%. Our implementation is available at littps://gitliub.com/dingjingtao/Auxiliary_enlianced_ALS.
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