Active ordinal classification by querying relative information

IF 0.9 4区计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Intelligent Data Analysis Pub Date : 2023-05-25 DOI:10.3233/ida-226899

Deniu He

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引用次数: 0

Abstract

Collecting and learning with auxiliary information is a way to further reduce the labeling cost of active learning. This paper studies the problem of active learning for ordinal classification by querying low-cost relative information (instance-pair relation information) through pairwise queries. Two challenges in this study that arise are how to train an ordinal classifier with absolute information (labeled data) and relative information simultaneously and how to select appropriate query pairs for querying. To solve the first problem, we convert the absolute and relative information into the class interval-labeled training instances form by introducing a class interval concept and two reasoning rules. Then, we design a new ordinal classification model for learning with the class interval-labeled training instances. For query pair selection, we specify that each query pair consists of an unlabeled instance and a labeled instance. The unlabeled instance is selected by a margin-based critical instance selection method, and the corresponding labeled instance is selected based on an expected cost minimization strategy. Extensive experiments on twelve public datasets validate that the proposed method is superior to the state-of-the-art methods.

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通过查询相关信息进行主动有序分类

辅助信息的收集和学习是进一步降低主动学习标注成本的一种方式。本文研究了通过两两查询查询低成本相对信息(实例对关系信息)的有序分类主动学习问题。在本研究中出现的两个挑战是如何同时训练具有绝对信息(标记数据)和相对信息的有序分类器以及如何选择合适的查询对进行查询。为了解决第一个问题，我们通过引入类区间概念和两个推理规则，将绝对信息和相对信息转换为类区间标记的训练实例形式。然后，我们设计了一个新的有序分类模型，用于使用类间隔标记的训练实例进行学习。对于查询对选择，我们指定每个查询对由一个未标记实例和一个标记实例组成。通过基于边际的关键实例选择方法选择未标记的实例，并根据期望成本最小化策略选择相应的标记实例。在12个公共数据集上进行的大量实验验证了所提出的方法优于最先进的方法。

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

Intelligent Data Analysis 工程技术-计算机：人工智能

CiteScore

2.20

自引率

5.90%

发文量

审稿时长

3.3 months

期刊介绍： Intelligent Data Analysis provides a forum for the examination of issues related to the research and applications of Artificial Intelligence techniques in data analysis across a variety of disciplines. These techniques include (but are not limited to): all areas of data visualization, data pre-processing (fusion, editing, transformation, filtering, sampling), data engineering, database mining techniques, tools and applications, use of domain knowledge in data analysis, big data applications, evolutionary algorithms, machine learning, neural nets, fuzzy logic, statistical pattern recognition, knowledge filtering, and post-processing. In particular, papers are preferred that discuss development of new AI related data analysis architectures, methodologies, and techniques and their applications to various domains.