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Linear, or non-linear, that is the question!

Authors
Kong, TaeyongKim, TaeriJeon, JinsungChoi, JeongwhanLee, Yeon-ChangPark, NoseongKim, Sang Wook
Issue Date
Feb-2022
Publisher
Association for Computing Machinery, Inc
Keywords
Collaborative filtering; Embedding propagation; Graph neural network; Recommender systems
Citation
WSDM 2022 - Proceedings of the 15th ACM International Conference on Web Search and Data Mining, pp 517 - 525
Pages
9
Indexed
SCOPUS
Journal Title
WSDM 2022 - Proceedings of the 15th ACM International Conference on Web Search and Data Mining
Start Page
517
End Page
525
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/139514
DOI
10.1145/3488560.3498501
Abstract
There were fierce debates on whether the non-linear embedding propagation of GCNs is appropriate to GCN-based recommender systems. It was recently found that the linear embedding propagation shows better accuracy than the non-linear embedding propagation. Since this phenomenon was discovered especially in recommender systems, it is required that we carefully analyze the linearity and non-linearity issue. In this work, therefore, we revisit the issues of i) which of the linear or non-linear propagation is better and ii) which factors of users/items decide the linearity/non-linearity of the embedding propagation. We propose a novel Hybrid method of linear and non-linear collaborative filtering method (HMLET, pronounced as Hamlet). In our design, there exist both linear and non-linear propagation steps, when processing each user or item node, and our gating module chooses one of them, which results in a hybrid model of the linear and non-linear GCN-based collaborative filtering (CF). The proposed model yields the best accuracy in three public benchmark datasets. Moreover, we classify users/items into the following three classes depending on our gating modules' selections: Full-Non-Linearity (FNL), Partial-Non-Linearity (PNL), and Full-Linearity (FL). We found that there exist strong correlations between nodes' centrality and their class membership, i.e., important user/item nodes exhibit more preferences towards the non-linearity during the propagation steps. To our knowledge, we are the first who design a hybrid method and report the correlation between the graph centrality and the linearity/non-linearity of nodes. All HMLET codes and datasets are available at: https://github.com/qbxlvnf11/HMLET.
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