Attention-based multi attribute matrix factorization for enhanced recommendation performance

IF 3 2区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Information Systems Pub Date : 2023-12-09 DOI:10.1016/j.is.2023.102334

Dongsoo Jang , Qinglong Li , Chaeyoung Lee , Jaekyeong Kim

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引用次数: 0

Abstract

In E-commerce platforms, auxiliary information containing several attributes (e.g., price, quality, and brand) can improve recommendation performance. However, previous studies used a simple combined embedding approach that did not consider the importance of each attribute embedded in the auxiliary information or only used some attributes of the auxiliary information. However, user purchasing behavior can vary significantly depending on the attributes. Thus, we propose multi attribute-based matrix factorization (MAMF), which considers the importance of each attribute embedded in various auxiliary information. MAMF obtains more representative and specific attention features of the user and item using a self-attention mechanism. By acquiring attentive representation, MAMF learns a high-level interaction precisely between users and items. To evaluate the performance of the proposed MAMF, we conducted extensive experiments using three real-world datasets from amazon.com. The experimental results show that MAMF exhibits excellent recommendation performance compared with various baseline models.

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基于注意力的多属性矩阵因式分解提高推荐性能

在电子商务平台中，包含多个属性（如价格、质量和品牌）的辅助信息可以提高推荐性能。然而，以往的研究采用的是简单的组合嵌入方法，没有考虑辅助信息中嵌入的每个属性的重要性，或者只使用了辅助信息中的某些属性。然而，用户的购买行为会因属性不同而有很大差异。因此，我们提出了基于多属性的矩阵因式分解（MAMF），它考虑了嵌入在各种辅助信息中的每个属性的重要性。MAMF 利用自我关注机制获取用户和商品更具代表性和特定的关注特征。通过获取注意力表征，MAMF 可以精确地学习用户与物品之间的高级交互。为了评估所提出的 MAMF 的性能，我们使用来自 amazon.com 的三个真实数据集进行了大量实验。实验结果表明，与各种基线模型相比，MAMF 表现出了卓越的推荐性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Information Systems 工程技术-计算机：信息系统

CiteScore

9.40

自引率

2.70%

发文量

112

审稿时长

53 days

期刊介绍： Information systems are the software and hardware systems that support data-intensive applications. The journal Information Systems publishes articles concerning the design and implementation of languages, data models, process models, algorithms, software and hardware for information systems. Subject areas include data management issues as presented in the principal international database conferences (e.g., ACM SIGMOD/PODS, VLDB, ICDE and ICDT/EDBT) as well as data-related issues from the fields of data mining/machine learning, information retrieval coordinated with structured data, internet and cloud data management, business process management, web semantics, visual and audio information systems, scientific computing, and data science. Implementation papers having to do with massively parallel data management, fault tolerance in practice, and special purpose hardware for data-intensive systems are also welcome. Manuscripts from application domains, such as urban informatics, social and natural science, and Internet of Things, are also welcome. All papers should highlight innovative solutions to data management problems such as new data models, performance enhancements, and show how those innovations contribute to the goals of the application.