Jiajun Chen scite author profile

Recommender systems usually make personalized recommendation with user-item interaction ratings, implicit feedback and auxiliary information. Matrix factorization is the basic idea to predict a personalized ranking over a set of items for an individual user with the similarities among users and items. In this paper, we propose a novel matrix factorization model with neural network architecture. Firstly, we construct a user-item matrix with explicit ratings and non-preference implicit feedback. With this matrix as the input, we present a deep structure learning architecture to learn a common low dimensional space for the representations of users and items. Secondly, we design a new loss function based on binary cross entropy, in which we consider both explicit ratings and implicit feedback for a better optimization. The experimental results show the effectiveness of both our proposed model and the loss function. On several benchmark datasets, our model outperformed other stateof-the-art methods. We also conduct extensive experiments to evaluate the performance within different experimental settings.

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Hydrothermal synthesis of lithium iron phosphate

Chen

Whittingham

2006

Electrochemistry Communications

341

223

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The hydrothermal synthesis and characterization of olivines and related compounds for electrochemical applications

Chen¹,

Vacchio²,

Wang³

et al. 2008

Solid State Ionics

283

214

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Direct Growth of Highly Mismatched Type II ZnO/ZnSe Core/Shell Nanowire Arrays on Transparent Conducting Oxide Substrates for Solar Cell Applications

et al. 2008

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Jiajun Chen

Deep Matrix Factorization Models for Recommender Systems

Hydrothermal synthesis of lithium iron phosphate

The hydrothermal synthesis and characterization of olivines and related compounds for electrochemical applications

Direct Growth of Highly Mismatched Type II ZnO/ZnSe Core/Shell Nanowire Arrays on Transparent Conducting Oxide Substrates for Solar Cell Applications

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