利用混合主动机器学习框架增强实体解析能力：稀疏数据集中的优化学习策略

IF 3 2区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Information Systems Pub Date : 2024-05-25 DOI:10.1016/j.is.2024.102410

Mourad Jabrane , Hiba Tabbaa , Aissam Hadri , Imad Hafidi

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引用次数: 0

摘要

在解决识别不同数据集中相似记录的问题时（称为实体解析或 ER），一个很大的挑战是缺乏足够的标注数据。这对建立强大的机器学习模型至关重要，但获取这些数据可能既昂贵又耗时。主动机器学习（ActiveML）是一种有用的方法，因为它能巧妙地挑选出最有用的数据进行学习。它使用两个主要理念：信息性和代表性。ER 中使用的典型 ActiveML 方法通常过于依赖其中一种思想，这可能会降低其有效性，尤其是在数据量很少的情况下。我们的研究引入了一种新的综合方法，同时使用这两种理念。我们创建了这种方法的两个版本，分别称为 DPQ 和 STQ，并在 11 个不同的真实世界数据集上进行了测试。结果表明，与现有方法相比，我们的新方法能产生更好的分数、更稳定的模型，并能以更少的训练数据加快学习速度，从而改进了ER。

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Enhancing Entity Resolution with a hybrid Active Machine Learning framework: Strategies for optimal learning in sparse datasets

When solving the problem of identifying similar records in different datasets (known as Entity Resolution or ER), one big challenge is the lack of enough labeled data. Which is crucial for building strong machine learning models, but getting this data can be expensive and time-consuming. Active Machine Learning (ActiveML) is a helpful approach because it cleverly picks the most useful pieces of data to learn from. It uses two main ideas: informativeness and representativeness. Typical ActiveML methods used in ER usually depend too much on just one of these ideas, which can make them less effective, especially when starting with very little data. Our research introduces a new combined method that uses both ideas together. We created two versions of this method, called DPQ and STQ, and tested them on eleven different real-world datasets. The results showed that our new method improves ER by producing better scores, more stable models, and faster learning with less training data compared to existing methods.

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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.

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