推荐系统中的懒惰学习和稀疏性处理

IF 2.5 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Suryanshi Mishra, Tinku Singh, Manish Kumar, Satakshi
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引用次数: 0

摘要

推荐系统在各个领域无处不在,可帮助用户根据自己的偏好查找相关物品。通过识别符合用户偏好的相关项目,用户可以锁定正确的项目。为了预测评分以获得更准确的预测,推荐系统通常使用协同过滤(CF)方法来处理稀疏的用户评分项目矩阵。由于对新形成的实体缺乏了解,用户评分项目矩阵的数据稀疏性对协同过滤算法有巨大影响,而协同过滤算法经常面临懒惰学习问题。在现实世界中,用户和评论呈指数级增长的数据集使得这种情况更加严重。矩阵因式分解(MF)是推荐系统中的一种关键策略,尤其适用于协同过滤任务。本文提出了一种通过机器学习克服数据稀疏性挑战的神经网络矩阵因式分解(NNMF)模型。这种方法旨在提高推荐质量,同时减轻数据稀疏性的影响,而数据稀疏性是 CF 算法中的一个常见问题。我们在著名的 MovieLens 数据集上进行了全面的比较分析,该数据集涵盖 160 万到 960 万条记录。结果一致看好 NNMF 算法,在精确度、召回率、({mathcal {F}}1_{textrm{score}}\) 、MAE 和 RMSE 方面,与该领域最先进的方法相比,NNMF 算法表现出更优越的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Lazy learning and sparsity handling in recommendation systems

Lazy learning and sparsity handling in recommendation systems

Recommendation systems are ubiquitous in various domains, facilitating users in finding relevant items according to their preferences. Identifying pertinent items that meet their preferences enables users to target the right items. To predict ratings for more accurate forecasts, recommender systems often use collaborative filtering (CF) approaches to sparse user-rated item matrices. Due to a lack of knowledge regarding newly formed entities, the data sparsity of the user-rated item matrix has an enormous effect on collaborative filtering algorithms, which frequently face lazy learning issues. Real-world datasets with exponentially increasing users and reviews make this situation worse. Matrix factorization (MF) stands out as a key strategy in recommender systems, especially for CF tasks. This paper presents a neural network matrix factorization (NNMF) model through machine learning to overcome data sparsity challenges. This approach aims to enhance recommendation quality while mitigating the impact of data sparsity, a common issue in CF algorithms. A thorough comparative analysis was conducted on the well-known MovieLens dataset, spanning from 1.6 to 9.6 M records. The outcomes consistently favored the NNMF algorithm, showcasing superior performance compared to the state-of-the-art method in this domain in terms of precision, recall, \({\mathcal {F}}1_{\textrm{score}}\), MAE, and RMSE.

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来源期刊
Knowledge and Information Systems
Knowledge and Information Systems 工程技术-计算机:人工智能
CiteScore
5.70
自引率
7.40%
发文量
152
审稿时长
7.2 months
期刊介绍: Knowledge and Information Systems (KAIS) provides an international forum for researchers and professionals to share their knowledge and report new advances on all topics related to knowledge systems and advanced information systems. This monthly peer-reviewed archival journal publishes state-of-the-art research reports on emerging topics in KAIS, reviews of important techniques in related areas, and application papers of interest to a general readership.
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