Adversarial Neural Collaborative Filtering with Embedding Dimension Correlations

IF 1.3 3区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Yi Gao, Jianxia Chen, Liang Xiao, Hongyang Wang, Liwei Pan, Xuan Wen, Zhiwei Ye, Xinyun Wu
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引用次数: 0

Abstract

ABSTRACT Recently, convolutional neural networks (CNNs) have achieved excellent performance for the recommendation system by extracting deep features and building collaborative filtering models. However, CNNs have been verified susceptible to adversarial examples. This is because adversarial samples are subtle non-random disturbances, which indicates that machine learning models produce incorrect outputs. Therefore, we propose a novel model of Adversarial Neural Collaborative Filtering with Embedding Dimension Correlations, named ANCF in short, to address the adversarial problem of CNN-based recommendation system. In particular, the proposed ANCF model adopts the matrix factorization to train the adversarial personalized ranking in the prediction layer. This is because matrix factorization supposes that the linear interaction of the latent factors, which are captured between the user and the item, can describe the observable feedback, thus the proposed ANCF model can learn more complicated representation of their latent factors to improve the performance of recommendation. In addition, the ANCF model utilizes the outer product instead of the inner product or concatenation to learn explicitly pairwise embedding dimensional correlations and obtain the interaction map from which CNNs can utilize its strengths to learn high-order correlations. As a result, the proposed ANCF model can improve the robustness performance by the adversarial personalized ranking, and obtain more information by encoding correlations between different embedding layers. Experimental results carried out on three public datasets demonstrate that the ANCF model outperforms other existing recommendation models.
基于嵌入维数关联的对抗神经协同过滤
摘要近年来,卷积神经网络通过提取深层特征和构建协同过滤模型,在推荐系统中取得了优异的性能。然而,细胞神经网络已被证实易受对抗性例子的影响。这是因为对抗性样本是微妙的非随机干扰,这表明机器学习模型产生了不正确的输出。因此,我们提出了一种新的嵌入维度相关性的对抗性神经协作过滤模型,简称ANCF,以解决基于CNN的推荐系统的对抗性问题。特别地,所提出的ANCF模型采用矩阵分解来训练预测层中的对抗性个性化排序。这是因为矩阵分解假设在用户和项目之间捕获的潜在因素的线性交互可以描述可观察的反馈,因此所提出的ANCF模型可以学习其潜在因素的更复杂的表示,以提高推荐性能。此外,ANCF模型利用外积而不是内积或级联来明确地学习成对嵌入维度相关性,并获得相互作用图,CNN可以从中利用其强度来学习高阶相关性。因此,所提出的ANCF模型可以通过对抗性个性化排序来提高鲁棒性性能,并通过编码不同嵌入层之间的相关性来获得更多信息。在三个公共数据集上进行的实验结果表明,ANCF模型优于其他现有的推荐模型。
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来源期刊
Data Intelligence
Data Intelligence COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
6.50
自引率
15.40%
发文量
40
审稿时长
8 weeks
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